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blankart/src/k_hud.c
GenericHeroGuy d37b987acb Remove W_CachePatchName, everything's safe 
Menu headerpics, menuitem patches and old-style map thumbnails/minimaps now
support longnames
2025-06-25 23:42:36 +02:00

5076 lines
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// SONIC ROBO BLAST 2 KART
//-----------------------------------------------------------------------------
// Copyright (C) 2018-2020 by Kart Krew
//
// This program is free software distributed under the
// terms of the GNU General Public License, version 2.
// See the 'LICENSE' file for more details.
//-----------------------------------------------------------------------------
/// \file k_hud.c
/// \brief HUD drawing functions exclusive to Kart
#include "k_hud.h"
#include "info.h"
#include "k_kart.h"
#include "k_battle.h"
#include "k_grandprix.h"
#include "k_boss.h"
#include "k_color.h"
#include "k_director.h"
#include "p_mobj.h"
#include "screen.h"
#include "doomtype.h"
#include "doomdef.h"
#include "hu_stuff.h"
#include "d_netcmd.h"
#include "v_video.h"
#include "r_draw.h"
#include "st_stuff.h"
#include "lua_hud.h"
#include "doomstat.h"
#include "d_clisrv.h"
#include "g_game.h"
#include "p_local.h"
#include "z_zone.h"
#include "m_cond.h"
#include "r_main.h"
#include "s_sound.h"
#include "r_things.h"
#include "r_fps.h"
#include "m_random.h"
#include "g_party.h"
#define NUMPOSNUMS 10
#define NUMPOSFRAMES 7 // White, three blues, three reds
#define NUMWINFRAMES 6 // Red, yellow, green, cyan, blue, purple
// Hud offset cvars
#define IMPL_HUD_OFFSET_X(name)\
consvar_t cv_##name##_xoffset = CVAR_INIT ("hud_" #name "_xoffset", "0", CV_SAVE, CV_Signed, NULL);
#define IMPL_HUD_OFFSET_Y(name)\
consvar_t cv_##name##_yoffset = CVAR_INIT ("hud_" #name "_yoffset", "0", CV_SAVE, CV_Signed, NULL);
#define IMPL_HUD_OFFSET(name)\
IMPL_HUD_OFFSET_X(name)\
IMPL_HUD_OFFSET_Y(name)
IMPL_HUD_OFFSET(item); // Item box
IMPL_HUD_OFFSET(time); // Time
IMPL_HUD_OFFSET(laps); // Number of laps
IMPL_HUD_OFFSET(rings); // Number of rings
IMPL_HUD_OFFSET(dnft); // Countdown (did not finish timer)
IMPL_HUD_OFFSET(speed); // Speedometer
IMPL_HUD_OFFSET(acce); // Accessibility
IMPL_HUD_OFFSET(posi); // Position in race
IMPL_HUD_OFFSET(face); // Mini rankings
IMPL_HUD_OFFSET(stcd); // Starting countdown
IMPL_HUD_OFFSET_Y(chek); // Check gfx
IMPL_HUD_OFFSET(mini); // Minimap
IMPL_HUD_OFFSET(want); // Wanted
//IMPL_HUD_OFFSET(stat); // Stats
#undef IMPL_HUD_OFFSET
#undef IMPL_HUD_OFFSET_X
#undef IMPL_HUD_OFFSET_Y
static CV_PossibleValue_t speedo_cons_t[]= {
{0, "Default"},
{1, "Small"},
//{2, "P-Meter"}, Readded later need to draw smaller sprites.
{0, NULL}};
consvar_t cv_newspeedometer = CVAR_INIT ("newspeedometer", "Small", CV_SAVE, speedo_cons_t, NULL);
static CV_PossibleValue_t inputdisplay_cons_t[] = {{0, "Off"}, {1, "Wheel"}, {2, "Stick"}, {3, "SRB2"}, {0, NULL}};
consvar_t cv_showinput = CVAR_INIT ("showinput", "Off", CV_SAVE, inputdisplay_cons_t, NULL);
consvar_t cv_colorizedhud = CVAR_INIT ("colorizedhud", "On", CV_SAVE, CV_OnOff, NULL);
consvar_t cv_colorizeditembox = CVAR_INIT ("colorizeditembox", "On", CV_SAVE, CV_OnOff, NULL);
consvar_t cv_darkitembox = CVAR_INIT ("darkitembox", "On", CV_SAVE, CV_OnOff, NULL);
consvar_t cv_showfinishedplayers = CVAR_INIT ("showfinishedplayers", "On", CV_SAVE, CV_OnOff, NULL);
static CV_PossibleValue_t HudColor_cons_t[MAXSKINCOLORS+1];
consvar_t cv_colorizedhudcolor = CVAR_INIT ("colorizedhudcolor", "Skin Color", CV_SAVE, HudColor_cons_t, NULL);
//{ Patch Definitions
static patch_t *kp_nodraw;
// Stickers
static patch_t *kp_timesticker[2];
static patch_t *kp_timestickerwide[2];
static patch_t *kp_lapsticker[2];
static patch_t *kp_lapstickerbig[2];
static patch_t *kp_lapstickerbig2[2];
static patch_t *kp_lapstickerwide[2];
static patch_t *kp_lapstickernarrow[2];
static patch_t *kp_bumpersticker[2];
static patch_t *kp_bumperstickerwide[2];
static patch_t *kp_karmasticker[2];
static patch_t *kp_timeoutsticker[2];
static patch_t *kp_splitlapflag;
static patch_t *kp_splitkarmabomb;
static patch_t *kp_startcountdown[20];
static patch_t *kp_racefinish[6];
static patch_t *kp_positionnum[NUMPOSNUMS][NUMPOSFRAMES];
static patch_t *kp_winnernum[NUMPOSFRAMES];
static patch_t *kp_facenum[MAXPLAYERS+1];
static patch_t *kp_facehighlight[8];
static patch_t *kp_nocontestminimap;
static patch_t *kp_spbminimap;
static patch_t *kp_itemboxminimap;
static patch_t *kp_ringsticker[5];
static patch_t *kp_ringsplitscreen;
static patch_t *kp_ringdebtminus;
static patch_t *kp_ringdebtminussmall;
static patch_t *kp_speedometersticker[2];
static patch_t *kp_speedometerlabel[4];
static patch_t *kp_kartzspeedo[25];
static patch_t *kp_rankbumper;
static patch_t *kp_tinybumper[2];
static patch_t *kp_ranknobumpers;
static patch_t *kp_rankcapsule;
static patch_t *kp_battlewin;
static patch_t *kp_battlecool;
static patch_t *kp_battlelose;
static patch_t *kp_battlewait;
static patch_t *kp_battleinfo;
static patch_t *kp_wanted;
static patch_t *kp_wantedsplit;
static patch_t *kp_wantedreticle;
static patch_t *kp_minimapdot;
static patch_t *kp_itembg[8];
static patch_t *kp_itemtimer[2];
static patch_t *kp_itemmulsticker[4];
static patch_t *kp_itemx;
static patch_t *kp_sadface[2];
static patch_t *kp_sneaker[4];
static patch_t *kp_rocketsneaker[2];
static patch_t *kp_invincibility[13];
static patch_t *kp_banana[5];
static patch_t *kp_eggman[2];
static patch_t *kp_orbinaut[5];
static patch_t *kp_jawz[3];
static patch_t *kp_mine[2];
static patch_t *kp_ballhog[2];
static patch_t *kp_selfpropelledbomb[2];
static patch_t *kp_grow[2];
static patch_t *kp_shrink[2];
static patch_t *kp_thundershield[2];
static patch_t *kp_hyudoro[2];
static patch_t *kp_pogospring[2];
static patch_t *kp_kitchensink[2];
static patch_t *kp_superring[2];
static patch_t *kp_landmine[2];
static patch_t *kp_bubbleshield[2];
static patch_t *kp_flameshield[2];
static patch_t *kp_check[6];
static patch_t *kp_eggnum[4];
static patch_t *kp_fpview[3];
static patch_t *kp_inputwheel[5];
static patch_t *kp_challenger[25];
static patch_t *kp_lapanim_lap[7];
static patch_t *kp_lapanim_final[11];
static patch_t *kp_lapanim_number[10][3];
static patch_t *kp_lapanim_emblem[2];
static patch_t *kp_lapanim_hand[3];
static patch_t *kp_yougotem;
static patch_t *kp_bossbar[8];
static patch_t *kp_bossret[4];
static patch_t *joybacking;
static patch_t *joyknob;
static patch_t *joyshadow;
void K_RegisterKartHUDStuff(void)
{
K_ReloadHUDColorCvar();
#define REG_HUD_OFFSET_X(name)\
CV_RegisterVar(&cv_##name##_xoffset);
#define REG_HUD_OFFSET_Y(name)\
CV_RegisterVar(&cv_##name##_yoffset);
#define REG_HUD_OFFSET(name)\
REG_HUD_OFFSET_X(name)\
REG_HUD_OFFSET_Y(name)
REG_HUD_OFFSET(item); // Item box
REG_HUD_OFFSET(time); // Time
REG_HUD_OFFSET(laps); // Number of laps
REG_HUD_OFFSET(rings); // Number of laps
REG_HUD_OFFSET(dnft); // Countdown (did not finish timer)
REG_HUD_OFFSET(speed); // Speedometer
REG_HUD_OFFSET(acce); // Accessibility
REG_HUD_OFFSET(posi); // Position in race
REG_HUD_OFFSET(face); // Mini rankings
REG_HUD_OFFSET(stcd); // Starting countdown
REG_HUD_OFFSET_Y(chek); // Check gfx
REG_HUD_OFFSET(mini); // Minimap
REG_HUD_OFFSET(want); // Wanted
//REG_HUD_OFFSET(stat); // Stats
#undef REG_HUD_OFFSET
#undef REG_HUD_OFFSET_X
#undef REG_HUD_OFFSET_Y
CV_RegisterVar(&cv_newspeedometer);
CV_RegisterVar(&cv_showinput);
CV_RegisterVar(&cv_colorizedhud);
CV_RegisterVar(&cv_colorizedhudcolor);
CV_RegisterVar(&cv_colorizeditembox);
CV_RegisterVar(&cv_darkitembox);
CV_RegisterVar(&cv_showfinishedplayers);
}
void K_LoadKartHUDGraphics(void)
{
INT32 i, j;
char buffer[9];
// Null Stuff
HU_UpdatePatch(&kp_nodraw, "K_TRNULL");
// Stickers
HU_UpdatePatch(&kp_timesticker[0], "K_STTIME");
HU_UpdatePatch(&kp_timestickerwide[0], "K_STTIMW");
HU_UpdatePatch(&kp_lapsticker[0], "K_STLAPS");
HU_UpdatePatch(&kp_lapstickerbig[0], "K_STLAPB");
HU_UpdatePatch(&kp_lapstickerbig2[0], "K_STLA2B");
HU_UpdatePatch(&kp_lapstickerwide[0], "K_STLAPW");
HU_UpdatePatch(&kp_lapstickernarrow[0], "K_STLAPN");
HU_UpdatePatch(&kp_bumpersticker[0], "K_STBALN");
HU_UpdatePatch(&kp_bumperstickerwide[0], "K_STBALW");
HU_UpdatePatch(&kp_karmasticker[0], "K_STKARM");
HU_UpdatePatch(&kp_timeoutsticker[0], "K_STTOUT");
// Colored Stickers
HU_UpdatePatch(&kp_timesticker[1], "K_SCTIME");
HU_UpdatePatch(&kp_timestickerwide[1], "K_SCTIMW");
HU_UpdatePatch(&kp_lapsticker[1], "K_SCLAPS");
HU_UpdatePatch(&kp_lapstickerbig[1], "K_SCLAPB");
HU_UpdatePatch(&kp_lapstickerbig2[1], "K_SCLA2B");
HU_UpdatePatch(&kp_lapstickerwide[1], "K_SCLAPW");
HU_UpdatePatch(&kp_lapstickernarrow[1], "K_SCLAPN");
HU_UpdatePatch(&kp_bumpersticker[1], "K_SCBALN");
HU_UpdatePatch(&kp_bumperstickerwide[1], "K_SCBALW");
HU_UpdatePatch(&kp_karmasticker[1], "K_SCKARM");
HU_UpdatePatch(&kp_timeoutsticker[1], "K_SCTOUT");
// Splitscreen
HU_UpdatePatch(&kp_splitlapflag, "K_SPTLAP");
HU_UpdatePatch(&kp_splitkarmabomb, "K_SPTKRM");
// Starting countdown
HU_UpdatePatch(&kp_startcountdown[0], "K_CNT3A");
HU_UpdatePatch(&kp_startcountdown[1], "K_CNT2A");
HU_UpdatePatch(&kp_startcountdown[2], "K_CNT1A");
HU_UpdatePatch(&kp_startcountdown[3], "K_CNTGOA");
HU_UpdatePatch(&kp_startcountdown[4], "K_DUEL1");
HU_UpdatePatch(&kp_startcountdown[5], "K_CNT3B");
HU_UpdatePatch(&kp_startcountdown[6], "K_CNT2B");
HU_UpdatePatch(&kp_startcountdown[7], "K_CNT1B");
HU_UpdatePatch(&kp_startcountdown[8], "K_CNTGOB");
HU_UpdatePatch(&kp_startcountdown[9], "K_DUEL2");
// Splitscreen
HU_UpdatePatch(&kp_startcountdown[10], "K_SMC3A");
HU_UpdatePatch(&kp_startcountdown[11], "K_SMC2A");
HU_UpdatePatch(&kp_startcountdown[12], "K_SMC1A");
HU_UpdatePatch(&kp_startcountdown[13], "K_SMCGOA");
HU_UpdatePatch(&kp_startcountdown[14], "K_SDUEL1");
HU_UpdatePatch(&kp_startcountdown[15], "K_SMC3B");
HU_UpdatePatch(&kp_startcountdown[16], "K_SMC2B");
HU_UpdatePatch(&kp_startcountdown[17], "K_SMC1B");
HU_UpdatePatch(&kp_startcountdown[18], "K_SMCGOB");
HU_UpdatePatch(&kp_startcountdown[19], "K_SDUEL2");
// Finish
HU_UpdatePatch(&kp_racefinish[0], "K_FINA");
HU_UpdatePatch(&kp_racefinish[1], "K_FINB");
// Splitscreen
HU_UpdatePatch(&kp_racefinish[2], "K_SMFINA");
HU_UpdatePatch(&kp_racefinish[3], "K_SMFINB");
// 2P splitscreen
HU_UpdatePatch(&kp_racefinish[4], "K_2PFINA");
HU_UpdatePatch(&kp_racefinish[5], "K_2PFINB");
// Position numbers
sprintf(buffer, "K_POSNxx");
for (i = 0; i < NUMPOSNUMS; i++)
{
buffer[6] = '0'+i;
for (j = 0; j < NUMPOSFRAMES; j++)
{
//sprintf(buffer, "K_POSN%d%d", i, j);
buffer[7] = '0'+j;
HU_UpdatePatch(&kp_positionnum[i][j], "%s", buffer);
}
}
sprintf(buffer, "K_POSNWx");
for (i = 0; i < NUMWINFRAMES; i++)
{
buffer[7] = '0'+i;
HU_UpdatePatch(&kp_winnernum[i], "%s", buffer);
}
sprintf(buffer, "OPPRNKxx");
for (i = 0; i <= MAXPLAYERS; i++)
{
buffer[6] = '0'+(i/10);
buffer[7] = '0'+(i%10);
HU_UpdatePatch(&kp_facenum[i], "%s", buffer);
}
sprintf(buffer, "K_CHILIx");
for (i = 0; i < 8; i++)
{
buffer[7] = '0'+(i+1);
HU_UpdatePatch(&kp_facehighlight[i], "%s", buffer);
}
// Special minimap icons
HU_UpdatePatch(&kp_nocontestminimap, "MINIDEAD");
HU_UpdatePatch(&kp_spbminimap, "K_SPTKRM");
HU_UpdatePatch(&kp_itemboxminimap, "K_ITMMM");
// Rings & Lives
HU_UpdatePatch(&kp_ringsticker[0], "K_RNGHD");
HU_UpdatePatch(&kp_ringsticker[1], "K_RNGHL");
HU_UpdatePatch(&kp_ringsticker[2], "K_RNGHDC");
HU_UpdatePatch(&kp_ringsticker[3], "K_RNGHLC");
HU_UpdatePatch(&kp_ringsplitscreen, "K_RNGSS");
HU_UpdatePatch(&kp_ringdebtminus, "K_RNGDM");
HU_UpdatePatch(&kp_ringdebtminussmall, "K_RNGSM");
// Speedometer
HU_UpdatePatch(&kp_speedometersticker[0], "SP_SMSTC");
// Speedometer Sticker Color
HU_UpdatePatch(&kp_speedometersticker[1], "SC_SMSTC");
// Speedometer labels
HU_UpdatePatch(&kp_speedometerlabel[0], "SP_MKMH");
HU_UpdatePatch(&kp_speedometerlabel[1], "SP_MMPH");
HU_UpdatePatch(&kp_speedometerlabel[2], "SP_MFRAC");
HU_UpdatePatch(&kp_speedometerlabel[3], "SP_MPERC");
{
const char* patchNames[] = {
"K_KZSP1", "K_KZSP2", "K_KZSP3", "K_KZSP4", "K_KZSP5",
"K_KZSP6", "K_KZSP7", "K_KZSP8", "K_KZSP9", "K_KZSP10",
"K_KZSP11", "K_KZSP12", "K_KZSP13", "K_KZSP14", "K_KZSP15",
"K_KZSP16", "K_KZSP17", "K_KZSP18", "K_KZSP19", "K_KZSP20",
"K_KZSP21", "K_KZSP22", "K_KZSP23", "K_KZSP24", "K_KZSP25"
};
for (size_t m = 0; m < sizeof(patchNames) / sizeof(patchNames[0]); ++m)
{
kp_kartzspeedo[m] = W_CachePatchLongName(patchNames[m], PU_HUDGFX);
}
}
// Extra ranking icons
HU_UpdatePatch(&kp_rankbumper, "K_BLNICO");
HU_UpdatePatch(&kp_tinybumper[0], "K_BLNA");
HU_UpdatePatch(&kp_tinybumper[1], "K_BLNB");
HU_UpdatePatch(&kp_ranknobumpers, "K_NOBLNS");
// Battle graphics
HU_UpdatePatch(&kp_battlewin, "K_BWIN");
HU_UpdatePatch(&kp_battlecool, "K_BCOOL");
HU_UpdatePatch(&kp_battlelose, "K_BLOSE");
HU_UpdatePatch(&kp_battlewait, "K_BWAIT");
HU_UpdatePatch(&kp_battleinfo, "K_BINFO");
HU_UpdatePatch(&kp_wanted, "K_WANTED");
HU_UpdatePatch(&kp_wantedsplit, "4PWANTED");
HU_UpdatePatch(&kp_wantedreticle, "MMAPWANT");
HU_UpdatePatch(&kp_minimapdot, "MMAPDOT");
// Kart Item Windows
HU_UpdatePatch(&kp_itembg[0], "K_ITBG");
HU_UpdatePatch(&kp_itembg[1], "K_ITBGD");
HU_UpdatePatch(&kp_itembg[4], "K_ITBC");
HU_UpdatePatch(&kp_itembg[5], "K_ITBCD");
HU_UpdatePatch(&kp_itemtimer[0], "K_ITIMER");
HU_UpdatePatch(&kp_itemmulsticker[0], "K_ITMUL");
HU_UpdatePatch(&kp_itemmulsticker[2], "K_ITMULC");
HU_UpdatePatch(&kp_itemx, "K_ITX");
HU_UpdatePatch(&kp_sadface[0], "K_ITSAD");
HU_UpdatePatch(&kp_sneaker[0], "K_ITSHOE");
HU_UpdatePatch(&kp_sneaker[1], "K_ITSHO2");
HU_UpdatePatch(&kp_sneaker[2], "K_ITSHO3");
HU_UpdatePatch(&kp_rocketsneaker[0], "K_ITRSHE");
sprintf(buffer, "K_ITINVx");
for (i = 0; i < 7; i++)
{
buffer[7] = '1'+i;
HU_UpdatePatch(&kp_invincibility[i], "%s", buffer);
}
HU_UpdatePatch(&kp_banana[0], "K_ITBANA");
HU_UpdatePatch(&kp_banana[1], "K_ITBAN2");
HU_UpdatePatch(&kp_banana[2], "K_ITBAN3");
HU_UpdatePatch(&kp_banana[3], "K_ITBAN4");
HU_UpdatePatch(&kp_eggman[0], "K_ITEGGM");
sprintf(buffer, "K_ITORBx");
for (i = 0; i < 4; i++)
{
buffer[7] = '1'+i;
HU_UpdatePatch(&kp_orbinaut[i], "%s", buffer);
}
HU_UpdatePatch(&kp_jawz[0], "K_ITJAWZ");
HU_UpdatePatch(&kp_jawz[1], "K_ITJAW2");
HU_UpdatePatch(&kp_mine[0], "K_ITMINE");
HU_UpdatePatch(&kp_ballhog[0], "K_ITBHOG");
HU_UpdatePatch(&kp_selfpropelledbomb[0], "K_ITSPB");
HU_UpdatePatch(&kp_grow[0], "K_ITGROW");
HU_UpdatePatch(&kp_shrink[0], "K_ITSHRK");
HU_UpdatePatch(&kp_thundershield[0], "K_ITTHNS");
HU_UpdatePatch(&kp_hyudoro[0], "K_ITHYUD");
HU_UpdatePatch(&kp_pogospring[0], "K_ITPOGO");
HU_UpdatePatch(&kp_kitchensink[0], "K_ITSINK");
HU_UpdatePatch(&kp_superring[0], "K_ITRING");
HU_UpdatePatch(&kp_landmine[0], "K_ITLNDM");
HU_UpdatePatch(&kp_bubbleshield[0], "K_ITBUBS");
HU_UpdatePatch(&kp_flameshield[0], "K_ITFLMS");
// Splitscreen
HU_UpdatePatch(&kp_itembg[2], "K_ISBG");
HU_UpdatePatch(&kp_itembg[3], "K_ISBGD");
HU_UpdatePatch(&kp_itembg[6], "K_ISBC");
HU_UpdatePatch(&kp_itembg[7], "K_ISBCD");
HU_UpdatePatch(&kp_itemtimer[1], "K_ISIMER");
HU_UpdatePatch(&kp_itemmulsticker[1], "K_ISMUL");
HU_UpdatePatch(&kp_itemmulsticker[3], "K_ISMULC");
HU_UpdatePatch(&kp_sadface[1], "K_ISSAD");
HU_UpdatePatch(&kp_sneaker[3], "K_ISSHOE");
HU_UpdatePatch(&kp_rocketsneaker[1], "K_ISRSHE");
sprintf(buffer, "K_ISINVx");
for (i = 0; i < 6; i++)
{
buffer[7] = '1'+i;
HU_UpdatePatch(&kp_invincibility[i+7], "%s", buffer);
}
HU_UpdatePatch(&kp_banana[4], "K_ISBANA");
HU_UpdatePatch(&kp_eggman[1], "K_ISEGGM");
HU_UpdatePatch(&kp_orbinaut[4], "K_ISORBN");
HU_UpdatePatch(&kp_jawz[2], "K_ISJAWZ");
HU_UpdatePatch(&kp_mine[1], "K_ISMINE");
HU_UpdatePatch(&kp_ballhog[1], "K_ISBHOG");
HU_UpdatePatch(&kp_selfpropelledbomb[1], "K_ISSPB");
HU_UpdatePatch(&kp_grow[1], "K_ISGROW");
HU_UpdatePatch(&kp_shrink[1], "K_ISSHRK");
HU_UpdatePatch(&kp_thundershield[1], "K_ISTHNS");
HU_UpdatePatch(&kp_hyudoro[1], "K_ISHYUD");
HU_UpdatePatch(&kp_pogospring[1], "K_ISPOGO");
HU_UpdatePatch(&kp_kitchensink[1], "K_ISSINK");
HU_UpdatePatch(&kp_superring[1], "K_ISRING");
HU_UpdatePatch(&kp_landmine[1], "K_ISLNDM");
HU_UpdatePatch(&kp_bubbleshield[1], "K_ISBUBS");
HU_UpdatePatch(&kp_flameshield[1], "K_ISFLMS");
// CHECK indicators
sprintf(buffer, "K_CHECKx");
for (i = 0; i < 6; i++)
{
buffer[7] = '1'+i;
HU_UpdatePatch(&kp_check[i], "%s", buffer);
}
// Eggman warning numbers
sprintf(buffer, "K_EGGNx");
for (i = 0; i < 4; i++)
{
buffer[6] = '0'+i;
HU_UpdatePatch(&kp_eggnum[i], "%s", buffer);
}
// First person mode
HU_UpdatePatch(&kp_fpview[0], "VIEWA0");
HU_UpdatePatch(&kp_fpview[1], "VIEWB0D0");
HU_UpdatePatch(&kp_fpview[2], "VIEWC0E0");
// Input UI Stick
HU_UpdatePatch(&joybacking, "JOYBCK");
HU_UpdatePatch(&joyknob, "JOYKNB");
HU_UpdatePatch(&joyshadow, "JOYSHD");
// Input UI Wheel
sprintf(buffer, "K_WHEELx");
for (i = 0; i < 5; i++)
{
buffer[7] = '0'+i;
HU_UpdatePatch(&kp_inputwheel[i], "%s", buffer);
}
// HERE COMES A NEW CHALLENGER
sprintf(buffer, "K_CHALxx");
for (i = 0; i < 25; i++)
{
buffer[6] = '0'+((i+1)/10);
buffer[7] = '0'+((i+1)%10);
HU_UpdatePatch(&kp_challenger[i], "%s", buffer);
}
// Lap start animation
sprintf(buffer, "K_LAP0x");
for (i = 0; i < 7; i++)
{
buffer[6] = '0'+(i+1);
HU_UpdatePatch(&kp_lapanim_lap[i], "%s", buffer);
}
sprintf(buffer, "K_LAPFxx");
for (i = 0; i < 11; i++)
{
buffer[6] = '0'+((i+1)/10);
buffer[7] = '0'+((i+1)%10);
HU_UpdatePatch(&kp_lapanim_final[i], "%s", buffer);
}
sprintf(buffer, "K_LAPNxx");
for (i = 0; i < 10; i++)
{
buffer[6] = '0'+i;
for (j = 0; j < 3; j++)
{
buffer[7] = '0'+(j+1);
HU_UpdatePatch(&kp_lapanim_number[i][j], "%s", buffer);
}
}
sprintf(buffer, "K_LAPE0x");
for (i = 0; i < 2; i++)
{
buffer[7] = '0'+(i+1);
HU_UpdatePatch(&kp_lapanim_emblem[i], "%s", buffer);
}
sprintf(buffer, "K_LAPH0x");
for (i = 0; i < 3; i++)
{
buffer[7] = '0'+(i+1);
HU_UpdatePatch(&kp_lapanim_hand[i], "%s", buffer);
}
HU_UpdatePatch(&kp_yougotem, "YOUGOTEM");
sprintf(buffer, "K_BOSB0x");
for (i = 0; i < 8; i++)
{
buffer[7] = '0'+((i+1)%10);
HU_UpdatePatch(&kp_bossbar[i], "%s", buffer);
}
sprintf(buffer, "K_BOSR0x");
for (i = 0; i < 4; i++)
{
buffer[7] = '0'+((i+1)%10);
HU_UpdatePatch(&kp_bossret[i], "%s", buffer);
}
}
// For the item toggle menu
const char *K_GetItemPatch(UINT8 item, boolean tiny)
{
switch (item)
{
case KITEM_SNEAKER:
return (tiny ? "K_ISSHOE" : "K_ITSHOE");
case KITEM_ROCKETSNEAKER:
return (tiny ? "K_ISRSHE" : "K_ITRSHE");
case KITEM_INVINCIBILITY:
return (tiny ? "K_ISINV1" : "K_ITINV1");
case KITEM_BANANA:
return (tiny ? "K_ISBANA" : "K_ITBANA");
case KITEM_EGGMAN:
return (tiny ? "K_ISEGGM" : "K_ITEGGM");
case KITEM_ORBINAUT:
return (tiny ? "K_ISORBN" : "K_ITORB1");
case KITEM_JAWZ:
return (tiny ? "K_ISJAWZ" : "K_ITJAWZ");
case KITEM_MINE:
return (tiny ? "K_ISMINE" : "K_ITMINE");
case KITEM_BALLHOG:
return (tiny ? "K_ISBHOG" : "K_ITBHOG");
case KITEM_SPB:
return (tiny ? "K_ISSPB" : "K_ITSPB");
case KITEM_GROW:
return (tiny ? "K_ISGROW" : "K_ITGROW");
case KITEM_SHRINK:
return (tiny ? "K_ISSHRK" : "K_ITSHRK");
case KITEM_THUNDERSHIELD:
return (tiny ? "K_ISTHNS" : "K_ITTHNS");
case KITEM_HYUDORO:
return (tiny ? "K_ISHYUD" : "K_ITHYUD");
case KITEM_POGOSPRING:
return (tiny ? "K_ISPOGO" : "K_ITPOGO");
case KITEM_KITCHENSINK:
return (tiny ? "K_ISSINK" : "K_ITSINK");
case KITEM_SUPERRING:
return (tiny ? "K_ISRING" : "K_ITRING");
case KITEM_LANDMINE:
return (tiny ? "K_ISLNDM" : "K_ITLNDM");
case KITEM_BUBBLESHIELD:
return (tiny ? "K_ISBUBS" : "K_ITBUBS");
case KITEM_FLAMESHIELD:
return (tiny ? "K_ISFLMS" : "K_ITFLMS");
case KRITEM_DUALSNEAKER:
return (tiny ? "K_ISSHOE" : "K_ITSHO2");
case KRITEM_TRIPLESNEAKER:
return (tiny ? "K_ISSHOE" : "K_ITSHO3");
case KRITEM_TRIPLEORBINAUT:
return (tiny ? "K_ISORBN" : "K_ITORB3");
case KRITEM_DUALJAWZ:
return (tiny ? "K_ISJAWZ" : "K_ITJAW2");
case KRITEM_TRIPLEBANANA:
return (tiny ? "K_ISBANA" : "K_ITBAN3");
case KRITEM_TENFOLDBANANA:
return (tiny ? "K_ISBANA" : "K_ITBAN4");
case KRITEM_QUADORBINAUT:
return (tiny ? "K_ISORBN" : "K_ITORB4");
default:
return (tiny ? "K_ISSAD" : "K_ITSAD");
}
}
static patch_t *K_GetCachedItemPatch(INT32 item, UINT8 offset)
{
patch_t **kp[1 + NUMKARTITEMS] = {
kp_sadface,
NULL,
kp_sneaker,
kp_rocketsneaker,
kp_invincibility,
kp_banana,
kp_eggman,
kp_orbinaut,
kp_jawz,
kp_mine,
kp_ballhog,
kp_selfpropelledbomb,
kp_grow,
kp_shrink,
kp_thundershield,
kp_hyudoro,
kp_pogospring,
kp_kitchensink,
kp_superring,
kp_landmine,
kp_bubbleshield,
kp_flameshield,
};
if (item == KITEM_SAD || (item > KITEM_NONE && item < NUMKARTITEMS))
return kp[item - KITEM_SAD][offset];
else
return NULL;
}
//}
INT32 ITEM_X, ITEM_Y; // Item Window
INT32 TIME_X, TIME_Y; // Time Sticker
INT32 LAPS_X, LAPS_Y; // Lap Sticker
INT32 RING_X, RING_Y; // Player Rings
INT32 SPDM_X, SPDM_Y; // Speedometer
INT32 ACCE_X, ACCE_Y; // Accessibility
INT32 POSI_X, POSI_Y; // Position Number
INT32 FACE_X, FACE_Y; // Top-four Faces
INT32 STCD_X, STCD_Y; // Starting countdown
INT32 CHEK_Y; // CHECK graphic
INT32 MINI_X, MINI_Y; // Minimap
INT32 WANT_X, WANT_Y; // Battle WANTED poster
// This is for the P2 and P4 side of splitscreen. Then we'll flip P1's and P2's to the bottom with V_SPLITSCREEN.
INT32 ITEM2_X, ITEM2_Y;
INT32 LAPS2_X, LAPS2_Y;
INT32 RING2_X, RING2_Y;
INT32 POSI2_X, POSI2_Y;
void K_ReloadHUDColorCvar(void)
{
HudColor_cons_t[0].value = 0;
HudColor_cons_t[0].strvalue = "Skin Color";
for (INT32 i = 1; i < numskincolors; i++)
{
HudColor_cons_t[i].value = i;
HudColor_cons_t[i].strvalue = skincolors[i].name; // SRB2kart
}
HudColor_cons_t[MAXSKINCOLORS].value = 0;
HudColor_cons_t[MAXSKINCOLORS].strvalue = NULL;
}
boolean K_UseColorHud(void)
{
return cv_colorizedhud.value;
}
UINT8 K_GetHudColor(void)
{
if (cv_colorizedhud.value && cv_colorizedhudcolor.value) return cv_colorizedhudcolor.value;
return ((stplyr && gamestate == GS_LEVEL) ? stplyr->skincolor : cv_playercolor[0].value);
}
static boolean K_BigLapSticker(void)
{
return ((cv_numlaps.value > 9) && (!stplyr->exiting));
}
patch_t *K_getItemBoxPatch(boolean small, boolean dark)
{
UINT8 ofs = (cv_darkitembox.value && dark ? 1 : 0) + (small ? 2 : 0);
return (cv_colorizeditembox.value && K_UseColorHud()) ? kp_itembg[4+ofs] : kp_itembg[ofs];
}
patch_t *K_getItemMulPatch(boolean small)
{
UINT8 ofs = small ? 1 : 0;
return K_UseColorHud() ? kp_itemmulsticker[2+ofs] : kp_itemmulsticker[ofs];
}
// This version of the function was prototyped in Lua by Nev3r ... a HUGE thank you goes out to them!
void K_ObjectTracking(trackingResult_t *result, vector3_t *point, boolean reverse)
{
#define NEWTAN(x) FINETANGENT(((x + ANGLE_90) >> ANGLETOFINESHIFT) & 4095) // tan function used by Lua
#define NEWCOS(x) FINECOSINE((x >> ANGLETOFINESHIFT) & FINEMASK)
angle_t viewpointAngle, viewpointAiming, viewpointRoll;
INT32 screenWidth, screenHeight;
fixed_t screenHalfW, screenHalfH;
const fixed_t baseFov = 90*FRACUNIT;
fixed_t fovDiff, fov, fovTangent, fg;
fixed_t h;
INT32 da;
UINT8 cameraNum = R_GetViewNumber();
I_Assert(result != NULL);
I_Assert(point != NULL);
// Initialize defaults
result->x = result->y = 0;
result->scale = FRACUNIT;
result->onScreen = false;
// Take the view's properties as necessary.
if (reverse)
{
viewpointAngle = (INT32)(viewangle + ANGLE_180);
viewpointAiming = (INT32)InvAngle(aimingangle);
viewpointRoll = (INT32)viewroll;
}
else
{
viewpointAngle = (INT32)viewangle;
viewpointAiming = (INT32)aimingangle;
viewpointRoll = (INT32)InvAngle(viewroll);
}
// Calculate screen size adjustments.
screenWidth = vid.width/vid.dupx;
screenHeight = vid.height/vid.dupy;
if (r_splitscreen >= 2)
{
// Half-wide screens
screenWidth >>= 1;
}
if (r_splitscreen >= 1)
{
// Half-tall screens
screenHeight >>= 1;
}
screenHalfW = (screenWidth >> 1) << FRACBITS;
screenHalfH = (screenHeight >> 1) << FRACBITS;
// Calculate FOV adjustments.
fovDiff = cv_fov[cameraNum].value - baseFov;
fov = ((baseFov - fovDiff) / 2) - (stplyr->fovadd / 2);
fovTangent = NEWTAN(FixedAngle(fov));
if (r_splitscreen == 1)
{
// Splitscreen FOV is adjusted to maintain expected vertical view
fovTangent = 10*fovTangent/17;
}
fg = (screenWidth >> 1) * fovTangent;
// Determine viewpoint factors.
h = R_PointToDist2(point->x, point->y, viewx, viewy);
da = AngleDeltaSigned(viewpointAngle, R_PointToAngle2(point->x, point->y, viewx, viewy));
// Set results relative to top left!
result->x = FixedMul(NEWTAN(da), fg);
result->y = FixedMul((NEWTAN(viewpointAiming) - FixedDiv((viewz - point->z), 1 + FixedMul(NEWCOS(da), h))), fg);
// Rotate for screen roll...
if (viewpointRoll)
{
fixed_t tempx = result->x;
viewpointRoll >>= ANGLETOFINESHIFT;
result->x = FixedMul(FINECOSINE(viewpointRoll), tempx) - FixedMul(FINESINE(viewpointRoll), result->y);
result->y = FixedMul(FINESINE(viewpointRoll), tempx) + FixedMul(FINECOSINE(viewpointRoll), result->y);
}
// Flipped screen?
if (encoremode)
{
result->x = -result->x;
}
// Center results.
result->x += screenHalfW;
result->y += screenHalfH;
result->scale = FixedDiv(screenHalfW, h+1);
result->onScreen = ((abs(da) > ANG60) || (abs(AngleDeltaSigned(viewpointAiming, R_PointToAngle2(0, 0, h, (viewz - point->z)))) > ANGLE_45));
// Cheap dirty hacks for some split-screen related cases
if (result->x < 0 || result->x > (screenWidth << FRACBITS))
{
result->onScreen = false;
}
if (result->y < 0 || result->y > (screenHeight << FRACBITS))
{
result->onScreen = false;
}
// adjust to non-green-resolution screen coordinates
result->x -= ((vid.width/vid.dupx) - BASEVIDWIDTH)<<(FRACBITS-((r_splitscreen >= 2) ? 2 : 1));
result->y -= ((vid.height/vid.dupy) - BASEVIDHEIGHT)<<(FRACBITS-((r_splitscreen >= 1) ? 2 : 1));
return;
#undef NEWTAN
#undef NEWCOS
}
static void K_initKartHUD(void)
{
/*
BASEVIDWIDTH = 320
BASEVIDHEIGHT = 200
Item window graphic is 41 x 33
Time Sticker graphic is 116 x 11
Time Font is a solid block of (8 x [12) x 14], equal to 96 x 14
Therefore, timestamp is 116 x 14 altogether
Lap Sticker is 80 x 11
Lap flag is 22 x 20
Lap Font is a solid block of (3 x [12) x 14], equal to 36 x 14
Therefore, lapstamp is 80 x 20 altogether
Position numbers are 43 x 53
Faces are 32 x 32
Faces draw downscaled at 16 x 16
Therefore, the allocated space for them is 16 x 67 altogether
----
ORIGINAL CZ64 SPLITSCREEN:
Item window:
if (!splitscreen) { ICONX = 139; ICONY = 20; }
else { ICONX = BASEVIDWIDTH-315; ICONY = 60; }
Time: 236, STRINGY( 12)
Lap: BASEVIDWIDTH-304, STRINGY(BASEVIDHEIGHT-189)
*/
// Single Screen (defaults)
// Item Window
ITEM_X = 5 + cv_item_xoffset.value; // 5
ITEM_Y = 5 + cv_item_yoffset.value; // 5
// Level Timer
TIME_X = BASEVIDWIDTH - 148 + cv_time_xoffset.value; // 172
TIME_Y = 9 + cv_time_yoffset.value; // 9
// Level Laps
LAPS_X = 9 + cv_laps_xoffset.value; // 9
LAPS_Y = BASEVIDHEIGHT - 29 + cv_laps_yoffset.value; // 171
// Player Rings
RING_X = 9 + cv_rings_xoffset.value; // 9
RING_Y = BASEVIDHEIGHT - 29 + cv_rings_yoffset.value; // 171
// Speedometer
SPDM_X = 9 + cv_speed_xoffset.value; // 9
SPDM_Y = BASEVIDHEIGHT - 29 + cv_speed_yoffset.value; // 171
// Accessibility
ACCE_X = 9 + cv_speed_xoffset.value; // 9
ACCE_Y = BASEVIDHEIGHT - 29 + cv_speed_yoffset.value; // 171
// Position Number
POSI_X = BASEVIDWIDTH - 9 + cv_posi_xoffset.value; // 268
POSI_Y = BASEVIDHEIGHT - 9 + cv_posi_yoffset.value; // 138
// Top-Four Faces
FACE_X = 9 + cv_face_xoffset.value; // 9
FACE_Y = 92 + cv_face_yoffset.value; // 92
// Starting countdown
STCD_X = BASEVIDWIDTH/2 + cv_stcd_xoffset.value; // 9
STCD_Y = BASEVIDHEIGHT/2 + cv_stcd_yoffset.value; // 92
// CHECK graphic
CHEK_Y = BASEVIDHEIGHT + cv_chek_yoffset.value; // 200
// Minimap
MINI_X = BASEVIDWIDTH - 50 + cv_mini_xoffset.value; // 270
MINI_Y = (BASEVIDHEIGHT/2)-16 + cv_mini_yoffset.value; // 84
// Battle WANTED poster
WANT_X = BASEVIDWIDTH - 55 + cv_want_xoffset.value; // 270
WANT_Y = BASEVIDHEIGHT- 71 + cv_want_yoffset.value; // 176
if (r_splitscreen) // Splitscreen
{
ITEM_X = 5;
ITEM_Y = 3;
LAPS_Y = (BASEVIDHEIGHT/2)-24;
RING_Y = (BASEVIDHEIGHT/2)-24;
SPDM_Y = (BASEVIDHEIGHT/2)-24;
POSI_Y = (BASEVIDHEIGHT/2)- 2;
STCD_Y = BASEVIDHEIGHT/4;
MINI_Y = (BASEVIDHEIGHT/2);
if (r_splitscreen > 1) // 3P/4P Small Splitscreen
{
// 1P (top left)
ITEM_X = -9;
ITEM_Y = -8;
LAPS_X = 3;
LAPS_Y = (BASEVIDHEIGHT/2)-12;
RING_X = 3;
RING_Y = (BASEVIDHEIGHT/2)-12;
POSI_X = 24;
POSI_Y = (BASEVIDHEIGHT/2)-26;
// 2P (top right)
ITEM2_X = (BASEVIDWIDTH/2)-39;
ITEM2_Y = -8;
LAPS2_X = (BASEVIDWIDTH/2)-43;
LAPS2_Y = (BASEVIDHEIGHT/2)-12;
RING2_X = (BASEVIDWIDTH/2)-43;
RING2_Y = (BASEVIDHEIGHT/2)-12;
POSI2_X = (BASEVIDWIDTH/2)-4;
POSI2_Y = (BASEVIDHEIGHT/2)-26;
// Reminder that 3P and 4P are just 1P and 2P splitscreen'd to the bottom.
STCD_X = BASEVIDWIDTH/4;
MINI_X = (3*BASEVIDWIDTH/4);
MINI_Y = (3*BASEVIDHEIGHT/4);
if (r_splitscreen > 2) // 4P-only
{
MINI_X = (BASEVIDWIDTH/2);
MINI_Y = (BASEVIDHEIGHT/2);
}
}
}
}
void K_getItemBoxDrawinfo(drawinfo_t *out)
{
INT32 fx, fy, fflags;
boolean flipamount = false;
// pain and suffering defined below
if (r_splitscreen < 2) // don't change shit for THIS splitscreen.
{
fx = ITEM_X;
fy = ITEM_Y;
fflags = V_SNAPTOTOP|V_SNAPTOLEFT|V_SPLITSCREEN;
}
else // now we're having a fun game.
{
if (stplyr == &players[displayplayers[0]] || stplyr == &players[displayplayers[2]]) // If we are P1 or P3...
{
fx = ITEM_X;
fy = ITEM_Y;
fflags = V_SNAPTOLEFT|V_SNAPTOTOP|V_SPLITSCREEN;
}
else // else, that means we're P2 or P4.
{
fx = ITEM2_X;
fy = ITEM2_Y;
fflags = V_SNAPTORIGHT|V_SNAPTOTOP|V_SPLITSCREEN;
flipamount = true;
}
}
out->x = fx;
out->y = fy;
out->flags = fflags;
out->flipamount = flipamount;
}
void K_getLapsDrawinfo(drawinfo_t *out)
{
INT32 fx, fy, splitflags = 0;
// pain and suffering defined below
if (r_splitscreen < 2) // don't change shit for THIS splitscreen.
{
fx = LAPS_X;
fy = LAPS_Y;
splitflags = V_SNAPTOBOTTOM|V_SNAPTOLEFT|V_HUDTRANS|V_SPLITSCREEN;
}
else
{
if (stplyr == &players[displayplayers[0]] || stplyr == &players[displayplayers[2]]) // If we are P1 or P3...
{
fx = LAPS_X;
fy = LAPS_Y;
splitflags = V_SNAPTOLEFT|V_SNAPTOBOTTOM|V_SPLITSCREEN;
}
else // else, that means we're P2 or P4.
{
fx = LAPS2_X;
fy = LAPS2_Y;
splitflags = V_SNAPTORIGHT|V_SNAPTOBOTTOM|V_SPLITSCREEN;
}
}
out->x = fx;
out->y = fy;
out->flags = splitflags;
}
void K_getRingsDrawinfo(drawinfo_t *out)
{
INT32 fx, fy, splitflags = 0;
// pain and suffering defined below
if (r_splitscreen < 2) // don't change shit for THIS splitscreen.
{
fx = RING_X;
fy = RING_Y;
splitflags = V_SNAPTOBOTTOM|V_SNAPTOLEFT|V_HUDTRANS|V_SPLITSCREEN;
}
else
{
if (stplyr == &players[displayplayers[0]] || stplyr == &players[displayplayers[2]]) // If we are P1 or P3...
{
fx = RING_X;
fy = RING_Y;
splitflags = V_SNAPTOLEFT|V_SNAPTOBOTTOM|V_SPLITSCREEN;
}
else // else, that means we're P2 or P4.
{
fx = RING2_X;
fy = RING2_Y;
splitflags = V_SNAPTORIGHT|V_SNAPTOBOTTOM|V_SPLITSCREEN;
}
}
out->x = fx;
out->y = fy;
out->flags = splitflags;
}
void K_getMinimapDrawinfo(drawinfo_t *out)
{
INT32 fx = MINI_X, fy = MINI_Y, fflags = (r_splitscreen < 2 ? V_SNAPTORIGHT : 0); // flags should only be 0 when it's centered (4p split)
fx -= SHORT(minimapinfo.minimap_pic->width)/2;
fy -= SHORT(minimapinfo.minimap_pic->height)/2;
out->x = fx;
out->y = fy;
out->flags = fflags;
}
// see also MT_PLAYERARROW mobjthinker in p_mobj.c
static void K_drawKartItem(void)
{
// ITEM_X = BASEVIDWIDTH-50; // 270
// ITEM_Y = 24; // 24
// Why write V_DrawScaledPatch calls over and over when they're all the same?
// Set to 'no item' just in case.
const UINT8 offset = ((r_splitscreen > 1) ? 1 : 0);
patch_t *localpatch = kp_nodraw;
patch_t *localbg;
patch_t *localinv = ((offset) ? kp_invincibility[((leveltime % (6*3)) / 3) + 7] : kp_invincibility[(leveltime % (7*3)) / 3]);
boolean dark = false;
INT32 fx = 0, fy = 0, fflags = 0; // final coords for hud and flags...
INT32 numberdisplaymin = 2;
INT32 itembar = 0;
INT32 maxl = 0; // itembar's normal highest value
INT32 flamebar = 0;
INT32 flamemaxl = 0; // flamebar's normal highest value
const INT32 barlength = (r_splitscreen > 1 ? 12 : 26);
UINT16 localcolor = SKINCOLOR_NONE;
SINT8 colormode = TC_RAINBOW;
UINT8 *colmap = NULL;
UINT8 *colormap = NULL;
boolean flipamount = false; // Used for 3P/4P splitscreen to flip item amount stuff
if (stplyr->itemroulette)
{
const INT32 item = K_GetRollingRouletteItem(stplyr);
if (K_GetHudColor())
localcolor = K_GetHudColor();
switch (item)
{
case KITEM_SNEAKER:
localpatch = kp_sneaker[offset ? 3: 0];
break;
case KITEM_BANANA:
localpatch = kp_banana[offset ? 4: 0];
break;
case KITEM_ORBINAUT:
localpatch = kp_orbinaut[3+offset];
break;
case KITEM_JAWZ:
localpatch = kp_jawz[offset ? 2: 0];
break;
case KITEM_INVINCIBILITY:
localpatch = localinv;
break;
default:
localpatch = K_GetCachedItemPatch(item, offset);
}
}
else
{
// I'm doing this a little weird and drawing mostly in reverse order
// The only actual reason is to make sneakers line up this way in the code below
// This shouldn't have any actual baring over how it functions
// Hyudoro is first, because we're drawing it on top of the player's current item
if (stplyr->stolentimer > 0)
{
if (leveltime & 2)
localpatch = kp_hyudoro[offset];
else
localpatch = kp_nodraw;
}
else if ((stplyr->stealingtimer > 0) && (leveltime & 2))
{
localpatch = kp_hyudoro[offset];
}
else if (stplyr->eggmanexplode > 1)
{
if (leveltime & 1)
localpatch = kp_eggman[offset];
else
localpatch = kp_nodraw;
}
else if (stplyr->rocketsneakertimer > 1)
{
itembar = stplyr->rocketsneakertimer;
maxl = (itemtime*3) - barlength;
if (leveltime & 1)
localpatch = kp_rocketsneaker[offset];
else
localpatch = kp_nodraw;
}
else if (stplyr->flametimer > 1)
{
itembar = stplyr->flametimer;
maxl = (itemtime*3) - barlength;
flamebar = stplyr->flamestore;
flamemaxl = FLAMESTOREMAX;
localbg = kp_itembg[offset+1];
if ((stplyr->flamestore >= FLAMESTOREMAX-1) && (leveltime & 1))
{
colormode = TC_BLINK;
localcolor = SKINCOLOR_WHITE;
}
if (leveltime & 1)
localpatch = kp_flameshield[offset];
else
localpatch = kp_nodraw;
}
else if (stplyr->growshrinktimer > 0)
{
if (stplyr->growcancel > 0)
{
itembar = stplyr->growcancel;
maxl = 26;
}
if (leveltime & 1)
localpatch = kp_grow[offset];
else
localpatch = kp_nodraw;
}
else if (K_GetShieldFromPlayer(stplyr) == KSHIELD_BUBBLE)
{
localpatch = kp_bubbleshield[offset];
if ((stplyr->bubbleblowup > bubbletime) && (leveltime & 1))
{
colormode = TC_BLINK;
localcolor = SKINCOLOR_WHITE;
}
itembar = 2 - stplyr->bubblepop;
maxl = 2;
}
else if (stplyr->sadtimer > 0)
{
if (leveltime & 2)
localpatch = kp_sadface[offset];
else
localpatch = kp_nodraw;
}
else
{
if (stplyr->itemamount <= 0)
return;
switch(stplyr->itemtype)
{
case KITEM_SNEAKER:
localpatch = kp_sneaker[(offset ? 3 : min(stplyr->itemamount-1, 2))];
numberdisplaymin = 4;
numberdisplaymin = offset ? 2 : 4;
break;
case KITEM_INVINCIBILITY:
localpatch = localinv;
localbg = kp_itembg[offset+1];
break;
case KITEM_BANANA:
localpatch = kp_banana[(offset ? 4 : min(stplyr->itemamount-1, 3))];
numberdisplaymin = offset ? 2 : 5;
break;
case KITEM_ORBINAUT:
localpatch = kp_orbinaut[(offset ? 4 : min(stplyr->itemamount-1, 3))];
numberdisplaymin = offset ? 2 : 5;
break;
case KITEM_JAWZ:
localpatch = kp_jawz[(offset ? 2 : min(stplyr->itemamount-1, 1))];
numberdisplaymin = 3;
numberdisplaymin = offset ? 2 : 3;
break;
case KITEM_SPB:
case KITEM_THUNDERSHIELD:
case KITEM_BUBBLESHIELD:
case KITEM_FLAMESHIELD:
dark = true;
/*FALLTHRU*/
default:
localpatch = K_GetCachedItemPatch(stplyr->itemtype, offset);
if (localpatch == NULL)
localpatch = kp_nodraw; // diagnose underflows
break;
}
if ((stplyr->itemflags & IF_ITEMOUT) && !(leveltime & 1))
localpatch = kp_nodraw;
}
if (stplyr->itemblink && (leveltime & 1))
{
colormode = TC_BLINK;
switch (stplyr->itemblinkmode)
{
case 2:
localcolor = K_RainbowColor(leveltime);
break;
case 1:
localcolor = SKINCOLOR_RED;
break;
default:
localcolor = SKINCOLOR_WHITE;
break;
}
}
}
localbg = K_getItemBoxPatch((boolean)offset, dark);
drawinfo_t info;
K_getItemBoxDrawinfo(&info);
fx = info.x;
fy = info.y;
fflags = info.flags;
flipamount = info.flipamount;
if (localcolor != SKINCOLOR_NONE)
colmap = R_GetTranslationColormap(colormode, localcolor, GTC_CACHE);
if (K_UseColorHud())
colormap = R_GetTranslationColormap(TC_DEFAULT, K_GetHudColor(), GTC_CACHE);
V_DrawMappedPatch(fx, fy, V_HUDTRANS|fflags, localbg, colormap);
//V_SetClipRect((fx + 10) << FRACBITS, (fy + 10) << FRACBITS, 30 << FRACBITS, 30 << FRACBITS, V_HUDTRANS|V_SLIDEIN|fflags);
// Then, the numbers:
if (stplyr->itemamount >= numberdisplaymin && !stplyr->itemroulette)
{
localbg = K_getItemMulPatch((boolean)offset);
V_DrawMappedPatch(fx + (flipamount ? 48 : 0), fy, V_HUDTRANS|fflags|(flipamount ? V_FLIP : 0), localbg, colormap); // flip this graphic for p2 and p4 in split and shift it.
V_DrawFixedPatch(fx<<FRACBITS, fy<<FRACBITS, FRACUNIT, V_HUDTRANS|fflags, localpatch, colmap);
if (offset)
if (flipamount) // reminder that this is for 3/4p's right end of the screen.
V_DrawString(fx+2, fy+31, V_ALLOWLOWERCASE|V_HUDTRANS|fflags, va("x%d", stplyr->itemamount));
else
V_DrawString(fx+24, fy+31, V_ALLOWLOWERCASE|V_HUDTRANS|fflags, va("x%d", stplyr->itemamount));
else
{
V_DrawScaledPatch(fy+28, fy+41, V_HUDTRANS|fflags, kp_itemx);
V_DrawKartString(fx+38, fy+36, V_HUDTRANS|fflags, va("%d", stplyr->itemamount));
}
}
else
V_DrawFixedPatch(fx<<FRACBITS, fy<<FRACBITS, FRACUNIT, V_HUDTRANS|fflags, localpatch, colmap);
//V_ClearClipRect();
// Extensible meter, currently used by Grow, Rocket Sneakers and Flame Shield
if (itembar)
{
const INT32 fill = ((itembar*barlength)/maxl);
const INT32 length = min(barlength, fill);
const INT32 height = (offset ? 1 : 2);
const INT32 x = (offset ? 17 : 11), y = (offset ? 27 : 35);
V_DrawScaledPatch(fx+x, fy+y, V_HUDTRANS|fflags, kp_itemtimer[offset]);
// The left dark "AA" edge
V_DrawFill(fx+x+1, fy+y+1, (length == 2 ? 2 : 1), height, 12|fflags);
// The bar itself
if (length > 2)
{
V_DrawFill(fx+x+length, fy+y+1, 1, height, 12|fflags); // the right one
if (height == 2)
V_DrawFill(fx+x+2, fy+y+2, length-2, 1, 8|fflags); // the dulled underside
V_DrawFill(fx+x+2, fy+y+1, length-2, 1, 0|fflags); // the shine
}
}
if (flamebar)
{
const INT32 fill = ((flamebar*barlength)/flamemaxl);
const INT32 length = min(barlength, fill);
const INT32 height = (offset ? 1 : 2);
const INT32 x = (offset ? 17 : 11), y = (offset ? 27 : 35);
V_DrawScaledPatch(fx+x, fy+y-8, V_HUDTRANS|fflags, kp_itemtimer[offset]);
// The left dark "AA" edge
V_DrawFill(fx+x+1, fy+y+1-8, (length == 2 ? 2 : 1), height, 55|fflags);
// The bar itself
if (length > 2)
{
V_DrawFill(fx+x+length, fy+y+1-8, 1, height, 55|fflags); // the right one
if (height == 2)
V_DrawFill(fx+x+2, fy+y+2-8, length-2, 1, 36|fflags); // the dulled underside
V_DrawFill(fx+x+2, fy+y+1-8, length-2, 1, 51|fflags); // the shine
}
}
// Quick Eggman numbers
if (stplyr->eggmanexplode > 1)
V_DrawScaledPatch(fx+17, fy+13-offset, V_HUDTRANS|fflags, kp_eggnum[min(3, G_TicsToSeconds(stplyr->eggmanexplode))]);
}
void K_drawKartTimestamp(tic_t drawtime, INT32 TX, INT32 TY, INT16 emblemmap, UINT8 mode)
{
// TIME_X = BASEVIDWIDTH-124; // 196
// TIME_Y = 6; // 6
tic_t worktime;
boolean dontdraw = false;
boolean emblemenabled = K_EmblemsEnabled();
INT32 splitflags = 0;
if (!mode)
{
splitflags = V_HUDTRANS|V_SNAPTOTOP|V_SNAPTORIGHT|V_SPLITSCREEN;
#ifndef TESTOVERTIMEINFREEPLAY
if (itembreaker) // capsules override any time limit settings
;
else
#endif
if (bossinfo.boss == true)
;
else if (timelimitintics > 0 && (gametyperules & GTR_TIMELIMIT)) // TODO
{
if (drawtime >= timelimitintics)
{
if (((drawtime-timelimitintics)/TICRATE) & 1)
{
dontdraw = true;
}
drawtime = 0;
}
else
{
drawtime = timelimitintics - drawtime;
}
}
}
if (!K_UseColorHud())
V_DrawScaledPatch(TX, TY, splitflags, ((mode == 2) ? kp_lapstickerwide[0] : kp_timestickerwide[0]));
else //Colourized hud
{
UINT8 *colormap = R_GetTranslationColormap(TC_DEFAULT, K_GetHudColor(), GTC_CACHE);
V_DrawMappedPatch(TX, TY, splitflags, ((mode == 2) ? kp_lapstickerwide[1] : kp_timestickerwide[1]), colormap);
}
TX += 33;
worktime = drawtime/(60*TICRATE);
if (mode && !drawtime)
V_DrawKartString(TX, TY+3, splitflags, va("--'--\"--"));
else if (dontdraw) // overtime flash
;
else if (worktime < 100) // 99:99:99 only
{
// zero minute
if (worktime < 10)
{
V_DrawKartString(TX, TY+3, splitflags, va("0"));
// minutes time 0 __ __
V_DrawKartString(TX+12, TY+3, splitflags, va("%d", worktime));
}
// minutes time 0 __ __
else
V_DrawKartString(TX, TY+3, splitflags, va("%d", worktime));
// apostrophe location _'__ __
V_DrawKartString(TX+24, TY+3, splitflags, va("'"));
worktime = (drawtime/TICRATE % 60);
// zero second _ 0_ __
if (worktime < 10)
{
V_DrawKartString(TX+36, TY+3, splitflags, va("0"));
// seconds time _ _0 __
V_DrawKartString(TX+48, TY+3, splitflags, va("%d", worktime));
}
// zero second _ 00 __
else
V_DrawKartString(TX+36, TY+3, splitflags, va("%d", worktime));
// quotation mark location _ __"__
V_DrawKartString(TX+60, TY+3, splitflags, va("\""));
worktime = G_TicsToCentiseconds(drawtime);
// zero tick _ __ 0_
if (worktime < 10)
{
V_DrawKartString(TX+72, TY+3, splitflags, va("0"));
// tics _ __ _0
V_DrawKartString(TX+84, TY+3, splitflags, va("%d", worktime));
}
// zero tick _ __ 00
else
V_DrawKartString(TX+72, TY+3, splitflags, va("%d", worktime));
}
else if ((drawtime/TICRATE) & 1)
V_DrawKartString(TX, TY+3, splitflags, va("99'59\"99"));
if ((modeattacking || (mode == 1)) && emblemenabled && !demo.playback) // emblem time!
{
INT32 workx = TX + 96, worky = TY+18;
SINT8 curemb = 0;
patch_t *emblempic[3] = {NULL, NULL, NULL};
UINT8 *emblemcol[3] = {NULL, NULL, NULL};
emblem_t *emblem = M_GetLevelEmblems(emblemmap);
while (emblem)
{
char targettext[9];
switch (emblem->type)
{
case ET_TIME:
{
static boolean canplaysound = true;
tic_t timetoreach = emblem->var;
if (emblem->collected)
{
emblempic[curemb] = W_CachePatchLongName(M_GetEmblemPatch(emblem, false), PU_CACHE);
emblemcol[curemb] = R_GetTranslationColormap(TC_DEFAULT, M_GetEmblemColor(emblem), GTC_CACHE);
if (++curemb == 3)
break;
goto bademblem;
}
snprintf(targettext, 9, "%i'%02i\"%02i",
G_TicsToMinutes(timetoreach, false),
G_TicsToSeconds(timetoreach),
G_TicsToCentiseconds(timetoreach));
if (!mode)
{
if (stplyr->realtime > timetoreach)
{
splitflags = (splitflags &~ V_HUDTRANS)|V_HUDTRANSHALF;
if (canplaysound)
{
S_StartSound(NULL, sfx_s3k72); //sfx_s26d); -- you STOLE fizzy lifting drinks
canplaysound = false;
}
}
else if (!canplaysound)
canplaysound = true;
}
targettext[8] = 0;
}
break;
default:
goto bademblem;
}
V_DrawRightAlignedString(workx, worky, splitflags|V_6WIDTHSPACE, targettext);
workx -= 67;
V_DrawSmallScaledPatch(workx + 4, worky, splitflags, W_CachePatchLongName("NEEDIT", PU_CACHE));
break;
bademblem:
emblem = M_GetLevelEmblems(-1);
}
if (!mode)
splitflags = (splitflags &~ V_HUDTRANSHALF)|V_HUDTRANS;
while (curemb--)
{
workx -= 12;
V_DrawSmallMappedPatch(workx + 4, worky, splitflags, emblempic[curemb], emblemcol[curemb]);
}
}
}
static void K_DrawKartPositionNum(INT32 num)
{
// POSI_X = BASEVIDWIDTH - 51; // 269
// POSI_Y = BASEVIDHEIGHT- 64; // 136
boolean win = (stplyr->exiting && num == 1);
//INT32 X = POSI_X;
INT32 W = SHORT(kp_positionnum[0][0]->width);
fixed_t scale = FRACUNIT;
patch_t *localpatch = kp_positionnum[0][0];
INT32 fx = 0, fy = 0, fflags = 0;
INT32 xoffs = (cv_showinput.value > 0) ? -48 : 0;
INT32 addOrSub = V_ADD;
boolean flipdraw = false; // flip the order we draw it in for MORE splitscreen bs. fun.
boolean flipvdraw = false; // used only for 2p splitscreen so overtaking doesn't make 1P's position fly off the screen.
boolean overtake = false;
if ((mapheaderinfo[gamemap - 1]->levelflags & LF_SUBTRACTNUM) == LF_SUBTRACTNUM)
{
addOrSub = V_SUBTRACT;
}
if (stplyr->positiondelay || stplyr->exiting)
{
scale *= 2;
overtake = true; // this is used for splitscreen stuff in conjunction with flipdraw.
}
if (r_splitscreen || ((cv_showinput.value > 0) && !r_splitscreen))
scale /= 2;
W = FixedMul(W<<FRACBITS, scale)>>FRACBITS;
// pain and suffering defined below
if (!r_splitscreen)
{
fx = POSI_X + xoffs;
fy = BASEVIDHEIGHT - 8;
fflags = V_SNAPTOBOTTOM|V_SNAPTORIGHT|V_SPLITSCREEN;
}
else if (r_splitscreen == 1) // for this splitscreen, we'll use case by case because it's a bit different.
{
fx = POSI_X;
if (stplyr == &players[displayplayers[0]]) // for player 1: display this at the top right, above the minimap.
{
fy = 30;
fflags = V_SNAPTOTOP|V_SNAPTORIGHT|V_SPLITSCREEN;
if (overtake)
flipvdraw = true; // make sure overtaking doesn't explode us
}
else // if we're not p1, that means we're p2. display this at the bottom right, below the minimap.
{
fy = (BASEVIDHEIGHT/2) - 8;
fflags = V_SNAPTOBOTTOM|V_SNAPTORIGHT|V_SPLITSCREEN;
}
}
else
{
if (stplyr == &players[displayplayers[0]] || stplyr == &players[displayplayers[2]]) // If we are P1 or P3...
{
fx = POSI_X;
fy = POSI_Y;
fflags = V_SNAPTOLEFT|V_SNAPTOBOTTOM|V_SPLITSCREEN;
flipdraw = true;
if (num && num >= 10)
fx += W; // this seems dumb, but we need to do this in order for positions above 10 going off screen.
}
else // else, that means we're P2 or P4.
{
fx = POSI2_X;
fy = POSI2_Y;
fflags = V_SNAPTORIGHT|V_SNAPTOBOTTOM|V_SPLITSCREEN;
}
}
// Special case for 0
if (num <= 0)
{
V_DrawFixedPatch(fx<<FRACBITS, fy<<FRACBITS, scale, addOrSub|fflags, kp_positionnum[0][0], NULL);
return;
}
// Draw the number
while (num)
{
if (win) // 1st place winner? You get rainbows!!
{
localpatch = kp_winnernum[(leveltime % (NUMWINFRAMES*3)) / 3];
}
else if (stplyr->laps >= numlaps || stplyr->exiting) // Check for the final lap, or won
{
boolean useRedNums = K_IsPlayerLosing(stplyr);
if (addOrSub == V_SUBTRACT)
{
// Subtracting RED will look BLUE, and vice versa.
useRedNums = !useRedNums;
}
// Alternate frame every three frames
switch ((leveltime % 9) / 3)
{
case 0:
if (useRedNums == true)
localpatch = kp_positionnum[num % 10][4];
else
localpatch = kp_positionnum[num % 10][1];
break;
case 1:
if (useRedNums == true)
localpatch = kp_positionnum[num % 10][5];
else
localpatch = kp_positionnum[num % 10][2];
break;
case 2:
if (useRedNums == true)
localpatch = kp_positionnum[num % 10][6];
else
localpatch = kp_positionnum[num % 10][3];
break;
default:
localpatch = kp_positionnum[num % 10][0];
break;
}
}
else
{
localpatch = kp_positionnum[num % 10][0];
}
V_DrawFixedPatch(
(fx<<FRACBITS) + ((overtake && flipdraw) ? (SHORT(localpatch->width)*scale/2) : 0),
(fy<<FRACBITS) + ((overtake && flipvdraw) ? (SHORT(localpatch->height)*scale/2) : 0),
scale, addOrSub|V_HUDTRANSHALF|fflags, localpatch, NULL
);
// ^ if we overtake as p1 or p3 in splitscren, we shift it so that it doesn't go off screen.
// ^ if we overtake as p1 in 2p splits, shift vertically so that this doesn't happen either.
fx -= W;
num /= 10;
}
}
static boolean K_drawKartPositionFaces(void)
{
// FACE_X = 15; // 15
// FACE_Y = 72; // 72
INT32 Y = FACE_Y-9; // -9 to offset where it's being drawn if there are more than one
INT32 i, j, ranklines, strank = -1;
boolean completed[MAXPLAYERS];
INT32 rankplayer[MAXPLAYERS];
INT32 bumperx, numplayersingame = 0;
UINT8 *colormap;
ranklines = 0;
memset(completed, 0, sizeof (completed));
memset(rankplayer, 0, sizeof (rankplayer));
for (i = 0; i < MAXPLAYERS; i++)
{
rankplayer[i] = -1;
if (!playeringame[i] || players[i].spectator || !players[i].mo)
continue;
numplayersingame++;
}
if (numplayersingame <= 1)
return true;
if (!LUA_HudEnabled(hud_minirankings))
return false; // Don't proceed but still return true for free play above if HUD is disabled.
for (j = 0; j < numplayersingame; j++)
{
UINT8 lowestposition = MAXPLAYERS+1;
for (i = 0; i < MAXPLAYERS; i++)
{
if (completed[i] || !playeringame[i] || players[i].spectator || !players[i].mo)
continue;
if (players[i].position >= lowestposition)
continue;
rankplayer[ranklines] = i;
lowestposition = players[i].position;
}
i = rankplayer[ranklines];
completed[i] = true;
if (players+i == stplyr)
strank = ranklines;
//if (ranklines == 5)
//break; // Only draw the top 5 players -- we do this a different way now...
ranklines++;
}
if (ranklines < 5)
Y += (9*ranklines);
else
Y += (9*5);
ranklines--;
i = ranklines;
if (gametype == GT_BATTLE || strank <= 2) // too close to the top, or playing battle, or a spectator? would have had (strank == -1) called out, but already caught by (strank <= 2)
{
if (i > 4) // could be both...
i = 4;
ranklines = 0;
}
else if (strank+2 >= ranklines) // too close to the bottom?
{
ranklines -= 4;
if (ranklines < 0)
ranklines = 0;
}
else
{
i = strank+2;
ranklines = strank-2;
}
for (; i >= ranklines; i--)
{
if (!playeringame[rankplayer[i]]) continue;
if (players[rankplayer[i]].spectator) continue;
if (!players[rankplayer[i]].mo) continue;
bumperx = FACE_X+19;
if (players[rankplayer[i]].mo->color)
{
colormap = R_GetTranslationColormap(players[rankplayer[i]].skin, players[rankplayer[i]].mo->color, GTC_CACHE);
if (players[rankplayer[i]].mo->colorized)
colormap = R_GetTranslationColormap(TC_RAINBOW, players[rankplayer[i]].mo->color, GTC_CACHE);
else
colormap = R_GetTranslationColormap(players[rankplayer[i]].skin, players[rankplayer[i]].mo->color, GTC_CACHE);
V_DrawMappedPatch(FACE_X, Y, V_HUDTRANS|V_SNAPTOLEFT, faceprefix[players[rankplayer[i]].skin][FACE_RANK], colormap);
if (LUA_HudEnabled(hud_battlebumpers))
{
if ((gametyperules & GTR_BUMPERS) && players[rankplayer[i]].bumper > 0)
{
V_DrawMappedPatch(bumperx-2, Y, V_HUDTRANS|V_SNAPTOLEFT, kp_tinybumper[0], colormap);
for (j = 1; j < players[rankplayer[i]].bumper; j++)
{
bumperx += 5;
V_DrawMappedPatch(bumperx, Y, V_HUDTRANS|V_SNAPTOLEFT, kp_tinybumper[1], colormap);
}
}
}
}
if (i == strank)
V_DrawScaledPatch(FACE_X, Y, V_HUDTRANS|V_SNAPTOLEFT, kp_facehighlight[(leveltime / 4) % 8]);
if (gametype == GT_BATTLE && players[rankplayer[i]].bumper <= 0)
V_DrawScaledPatch(FACE_X-4, Y-3, V_HUDTRANS|V_SNAPTOLEFT, kp_ranknobumpers);
else
{
INT32 pos = players[rankplayer[i]].position;
if (pos < 0 || pos > MAXPLAYERS)
pos = 0;
// Draws the little number over the face
V_DrawScaledPatch(FACE_X-5, Y+10, V_HUDTRANS|V_SNAPTOLEFT, kp_facenum[pos]);
}
Y -= 18;
}
return false;
}
static void K_drawBossHealthBar(void)
{
UINT8 i = 0, barstatus = 1, randlen = 0, darken = 0;
const INT32 startx = BASEVIDWIDTH - 23;
INT32 starty = BASEVIDHEIGHT - 25;
INT32 rolrand = 0;
boolean randsign = false;
if (bossinfo.barlen <= 1)
return;
// Entire bar juddering!
if (lt_exitticker < (TICRATE/2))
;
else if (bossinfo.visualbarimpact)
{
INT32 mag = min((bossinfo.visualbarimpact/4) + 1, 8);
if (bossinfo.visualbarimpact & 1)
starty -= mag;
else
starty += mag;
}
if ((lt_ticker >= lt_endtime) && bossinfo.enemyname)
{
if (lt_exitticker == 0)
{
rolrand = 5;
}
else if (lt_exitticker == 1)
{
rolrand = 7;
}
else
{
rolrand = 10;
}
V_DrawRightAlignedThinString(startx, starty-rolrand, V_HUDTRANS|V_SNAPTOBOTTOM|V_SNAPTORIGHT|V_6WIDTHSPACE, bossinfo.enemyname);
rolrand = 0;
}
// Used for colour and randomisation.
if (bossinfo.healthbar <= (bossinfo.visualdiv/FRACUNIT))
{
barstatus = 3;
}
else if (bossinfo.healthbar <= bossinfo.healthbarpinch)
{
barstatus = 2;
}
randlen = M_RandomKey(bossinfo.visualbar-(bossinfo.visualdiv/(2*FRACUNIT)))+1;
randsign = M_RandomChance(FRACUNIT/2);
// Right wing.
V_DrawScaledPatch(startx-1, starty, V_HUDTRANS|V_SNAPTOBOTTOM|V_SNAPTORIGHT|V_FLIP, kp_bossbar[0]);
// Draw the bar itself...
while (i < bossinfo.barlen)
{
V_DrawScaledPatch(startx-i, starty, V_HUDTRANS|V_SNAPTOBOTTOM|V_SNAPTORIGHT, kp_bossbar[1]);
if (i < bossinfo.visualbar)
{
randlen--;
if (!randlen)
{
randlen = M_RandomKey(bossinfo.visualbar-(bossinfo.visualdiv/(2*FRACUNIT)))+1;
if (barstatus > 1)
{
rolrand = M_RandomKey(barstatus)+1;
}
else
{
rolrand = 1;
}
if (randsign)
{
rolrand = -rolrand;
}
randsign = !randsign;
}
else
{
rolrand = 0;
}
if (lt_exitticker < (TICRATE/2))
;
else if ((bossinfo.visualbar - i) < (INT32)(bossinfo.visualbarimpact/8))
{
if (bossinfo.visualbarimpact & 1)
rolrand += (bossinfo.visualbar - i);
else
rolrand -= (bossinfo.visualbar - i);
}
if (bossinfo.visualdiv)
{
fixed_t work = 0;
if ((i+1) == bossinfo.visualbar)
darken = 1;
else
{
darken = 0;
// a hybrid fixed-int modulo...
while ((work/FRACUNIT) < bossinfo.visualbar)
{
if (work/FRACUNIT != i)
{
work += bossinfo.visualdiv;
continue;
}
darken = 1;
break;
}
}
}
V_DrawScaledPatch(startx-i, starty+rolrand, V_HUDTRANS|V_SNAPTOBOTTOM|V_SNAPTORIGHT, kp_bossbar[(2*barstatus)+darken]);
}
i++;
}
// Left wing.
V_DrawScaledPatch(startx-i, starty, V_HUDTRANS|V_SNAPTOBOTTOM|V_SNAPTORIGHT, kp_bossbar[0]);
}
//
// HU_DrawTabRankings -- moved here to take advantage of kart stuff!
//
void K_DrawTabRankings(INT32 x, INT32 y, playersort_t *tab, INT32 scorelines, INT32 whiteplayer, INT32 hilicol)
{
INT32 i, rightoffset = 240;
const UINT8 *colormap;
INT32 dupadjust = (vid.width/vid.dupx), duptweak = (dupadjust - BASEVIDWIDTH)/2;
int basey = y, basex = x, y2;
//this function is designed for 9 or less score lines only
//I_Assert(scorelines <= 9); -- not today bitch, kart fixed it up
V_DrawFill(1-duptweak, 26, dupadjust-2, 1, 0); // Draw a horizontal line because it looks nice!
scorelines--;
if (scorelines >= 8)
{
V_DrawFill(160, 26, 1, 147, 0); // Draw a vertical line to separate the two sides.
V_DrawFill(1-duptweak, 173, dupadjust-2, 1, 0); // And a horizontal line near the bottom.
rightoffset = (BASEVIDWIDTH/2) - 4 - x;
x = (BASEVIDWIDTH/2) + 4;
y += 18*(scorelines-8);
}
else
{
y += 18*scorelines;
}
for (i = scorelines; i >= 0; i--)
{
char strtime[MAXPLAYERNAME+1];
if (players[tab[i].num].spectator || !players[tab[i].num].mo)
continue; //ignore them.
if (netgame) // don't draw ping offline
{
if (players[tab[i].num].bot)
{
V_DrawString(x + ((i < 8) ? -25 : rightoffset + 3), y-2, V_SNAPTOLEFT, "CPU");
}
else if (tab[i].num != serverplayer || !server_lagless)
{
HU_drawPing(x + ((i < 8) ? -17 : rightoffset + 11), y-4, playerpingtable[tab[i].num], 0, false);
}
}
STRBUFCPY(strtime, tab[i].name);
y2 = y;
if (scorelines >= 8)
V_DrawThinString(x + 20, y2, ((tab[i].num == whiteplayer) ? hilicol : 0)|V_ALLOWLOWERCASE|V_6WIDTHSPACE, strtime);
else
V_DrawString(x + 20, y2, ((tab[i].num == whiteplayer) ? hilicol : 0)|V_ALLOWLOWERCASE, strtime);
if (players[tab[i].num].mo->color)
{
colormap = R_GetTranslationColormap(players[tab[i].num].skin, players[tab[i].num].mo->color, GTC_CACHE);
if (players[tab[i].num].mo->colorized)
colormap = R_GetTranslationColormap(TC_RAINBOW, players[tab[i].num].mo->color, GTC_CACHE);
else
colormap = R_GetTranslationColormap(players[tab[i].num].skin, players[tab[i].num].mo->color, GTC_CACHE);
V_DrawMappedPatch(x, y-4, 0, faceprefix[players[tab[i].num].skin][FACE_RANK], colormap);
/*if (gametype == GT_BATTLE && players[tab[i].num].bumper > 0) -- not enough space for this
{
INT32 bumperx = x+19;
V_DrawMappedPatch(bumperx-2, y-4, 0, kp_tinybumper[0], colormap);
for (j = 1; j < players[tab[i].num].bumper; j++)
{
bumperx += 5;
V_DrawMappedPatch(bumperx, y-4, 0, kp_tinybumper[1], colormap);
}
}*/
}
if (tab[i].num == whiteplayer)
V_DrawScaledPatch(x, y-4, 0, kp_facehighlight[(leveltime / 4) % 8]);
if (gametype == GT_BATTLE && players[tab[i].num].bumper <= 0)
V_DrawScaledPatch(x-4, y-7, 0, kp_ranknobumpers);
else
{
INT32 pos = players[tab[i].num].position;
if (pos < 0 || pos > MAXPLAYERS)
pos = 0;
// Draws the little number over the face
V_DrawScaledPatch(x-5, y+6, 0, kp_facenum[pos]);
}
if (gametype == GT_RACE)
{
#define timestring(time) va("%i'%02i\"%02i", G_TicsToMinutes(time, true), G_TicsToSeconds(time), G_TicsToCentiseconds(time))
if (scorelines >= 8)
{
if (players[tab[i].num].exiting)
V_DrawRightAlignedThinString(x+rightoffset, y-1, hilicol|V_6WIDTHSPACE, timestring(players[tab[i].num].realtime));
else if (players[tab[i].num].pflags & PF_NOCONTEST)
V_DrawRightAlignedThinString(x+rightoffset, y-1, V_6WIDTHSPACE, "NO CONTEST.");
else if (circuitmap)
V_DrawRightAlignedThinString(x+rightoffset, y-1, V_6WIDTHSPACE, va("Lap %d", tab[i].count));
}
else
{
if (players[tab[i].num].exiting)
V_DrawRightAlignedString(x+rightoffset, y, hilicol, timestring(players[tab[i].num].realtime));
else if (players[tab[i].num].pflags & PF_NOCONTEST)
V_DrawRightAlignedThinString(x+rightoffset, y-1, 0, "NO CONTEST.");
else if (circuitmap)
V_DrawRightAlignedString(x+rightoffset, y, 0, va("Lap %d", tab[i].count));
}
#undef timestring
}
else
V_DrawRightAlignedString(x+rightoffset, y, 0, va("%u", tab[i].count));
y -= 18;
if (i == 8)
{
y = basey + 7*18;
x = basex;
}
}
}
static void K_drawKartLaps(void)
{
const boolean uselives = G_GametypeUsesLives();
INT32 fx = 0, fy = 0, splitflags = 0; // stuff for 3p / 4p splitscreen.
drawinfo_t info;
K_getLapsDrawinfo(&info);
fx = info.x;
fy = info.y;
splitflags = info.flags;
if (r_splitscreen > 1)
{
INT32 fr = 0;
fr = fx;
// Laps
V_DrawScaledPatch(fx, fy, V_HUDTRANS|splitflags, kp_splitlapflag);
V_DrawScaledPatch(fx+22, fy, V_HUDTRANS|splitflags, frameslash);
if (numlaps >= 10)
{
UINT8 ln[2];
ln[0] = ((stplyr->laps+1 / 10) % 10);
ln[1] = (stplyr->laps % 10);
V_DrawScaledPatch(fx+13, fy, V_HUDTRANS|splitflags, fontv[PINGNUM_FONT].font[ln[0]]);
V_DrawScaledPatch(fx+17, fy, V_HUDTRANS|splitflags, fontv[PINGNUM_FONT].font[ln[1]]);
ln[0] = ((numlaps / 10) % 10);
ln[1] = (numlaps % 10);
V_DrawScaledPatch(fx+27, fy, V_HUDTRANS|splitflags, fontv[PINGNUM_FONT].font[ln[0]]);
V_DrawScaledPatch(fx+31, fy, V_HUDTRANS|splitflags, fontv[PINGNUM_FONT].font[ln[1]]);
}
else
{
V_DrawScaledPatch(fx+13, fy, V_HUDTRANS|splitflags, kp_facenum[(stplyr->laps) % 10]);
V_DrawScaledPatch(fx+27, fy, V_HUDTRANS|splitflags, kp_facenum[(numlaps) % 10]);
}
// Lives
if (LUA_HudEnabled(hud_lives) && uselives)
{
UINT8 *colormap = R_GetTranslationColormap(stplyr->skin, K_GetHudColor(), GTC_CACHE);
V_DrawMappedPatch(fr+21, fy-13, V_HUDTRANS|splitflags, faceprefix[stplyr->skin][FACE_MINIMAP], colormap);
if (stplyr->lives >= 0)
V_DrawScaledPatch(fr+34, fy-10, V_HUDTRANS|splitflags, fontv[PINGNUM_FONT].font[(stplyr->lives % 10)]); // make sure this doesn't overflow OR underflow
}
}
else
{
if (!K_UseColorHud())
{
if (K_BigLapSticker())
V_DrawScaledPatch(fx, fy, V_HUDTRANS|splitflags, ((stplyr->laps > 9) ? kp_lapstickerbig2[0] : kp_lapstickerbig[0]));
else
V_DrawScaledPatch(fx, fy, V_HUDTRANS|splitflags, kp_lapsticker[0]);
}
else
{
UINT8 *colormap = R_GetTranslationColormap(TC_DEFAULT, K_GetHudColor(), GTC_CACHE);
if (K_BigLapSticker())
V_DrawMappedPatch(fx, fy, V_HUDTRANS|splitflags, ((stplyr->laps > 9) ? kp_lapstickerbig2[1] : kp_lapstickerbig[1]), colormap);
else
V_DrawMappedPatch(fx, fy, V_HUDTRANS|splitflags, kp_lapsticker[1], colormap);
}
if (stplyr->exiting)
V_DrawKartString(fx+33, fy+3, V_HUDTRANS|V_SLIDEIN|splitflags, "FIN");
else
V_DrawKartString(fx+33, fy+3, V_HUDTRANS|splitflags, va("%d/%d", min(stplyr->laps, numlaps), numlaps));
// Lives
if (LUA_HudEnabled(hud_lives) && uselives)
{
INT32 offsetx = 0;
INT32 offsety = 0;
if (cv_newspeedometer.value == 0 && !K_RingsActive())
{
offsetx = 25;
offsety = 15;
}
else if (K_RingsActive())
{
offsetx = 4;
}
UINT8 *colormap = R_GetTranslationColormap(stplyr->skin, K_GetHudColor(), GTC_CACHE);
V_DrawMappedPatch(fx+59+offsetx, fy-16+offsety, V_HUDTRANS|splitflags, faceprefix[stplyr->skin][FACE_RANK], colormap);
if (stplyr->lives >= 0)
V_DrawScaledPatch(fx+77+offsetx, fy-11+offsety, V_HUDTRANS|splitflags, kp_facenum[(stplyr->lives % 10)]); // make sure this doesn't overflow OR underflow
}
}
}
static void K_drawKartAccessibilityIcons(INT32 fx)
{
INT32 fy = ACCE_Y-25;
INT32 splitflags = V_SNAPTOLEFT|V_SNAPTOBOTTOM|V_HUDTRANS|V_SPLITSCREEN;
//INT32 step = 1; -- if there's ever more than one accessibility icon
fx += ACCE_X;
if (r_splitscreen < 2) // adjust to speedometer height
{
if (cv_acce_xoffset.value == 0 && cv_acce_yoffset.value == 0)
{
if (cv_newspeedometer.value == 0)
{
fy += 44;
}
else
{
if (cv_kartspeedometer.value == 0 && !K_RingsActive())
fy += 18;
if (gametype == GT_BATTLE)
fy -= 4;
}
}
}
else
{
fx = ACCE_X+43;
fy = ACCE_Y;
if (!(stplyr == &players[displayplayers[0]] || stplyr == &players[displayplayers[2]])) // If we are not P1 or P3...
{
splitflags ^= (V_SNAPTOLEFT|V_SNAPTORIGHT);
fx = (BASEVIDWIDTH/2) - (fx + 10);
//step = -step;
}
}
if (stplyr->pflags & PF_KICKSTARTACCEL) // just KICKSTARTACCEL right now, maybe more later
{
SINT8 col = 0, wid, fil, ofs;
UINT8 i = 7;
ofs = (stplyr->kickstartaccel == ACCEL_KICKSTART) ? 1 : 0;
fil = i-(stplyr->kickstartaccel*i)/ACCEL_KICKSTART;
V_DrawFill(fx+4, fy+ofs-1, 2, 1, 31|splitflags);
V_DrawFill(fx, (fy+ofs-1)+8, 10, 1, 31|splitflags);
while (i--)
{
wid = (i/2)+1;
V_DrawFill(fx+4-wid, fy+ofs+i, 2+(wid*2), 1, 31|splitflags);
if (fil > 0)
{
if (i < fil)
col = 23;
else if (i == fil)
col = 3;
else
col = 5 + (i-fil)*2;
}
else if ((leveltime % 7) == i)
col = 0;
else
col = 3;
V_DrawFill(fx+5-wid, fy+ofs+i, (wid*2), 1, col|splitflags);
}
//fx += step*12;
}
}
static void K_drawKartSpeedometer(void)
{
static fixed_t convSpeed;
UINT8 labeln = 0;
UINT8 numbers[3];
INT32 splitflags = V_SNAPTOBOTTOM|V_SNAPTOLEFT|V_SPLITSCREEN;
INT32 battleoffset = 0;
INT32 ringoffset = 0;
INT32 oldringoffset = 0;
switch (cv_kartspeedometer.value)
{
case 1: // Kilometers
convSpeed = FixedDiv(FixedMul(stplyr->speed, 142371), mapobjectscale) / FRACUNIT; // 2.172409058
labeln = 0;
break;
case 2: // Miles
convSpeed = FixedDiv(FixedMul(stplyr->speed, 88465), mapobjectscale) / FRACUNIT; // 1.349868774
labeln = 1;
break;
case 3: // Fracunits
convSpeed = FixedDiv(stplyr->speed, mapobjectscale) / FRACUNIT; // 1.0. duh.
labeln = 2;
break;
case 4: // Sonic Drift 2 style percentage
if (stplyr->mo)
convSpeed = (FixedDiv(stplyr->speed, FixedMul(K_GetKartSpeed(stplyr, false, false), K_PlayerBaseFriction(stplyr, ORIG_FRICTION)))*100)>>FRACBITS;
labeln = 3;
break;
default:
break;
}
// Don't overflow
// (negative speed IS really high speed :V)
if (convSpeed > 999 || convSpeed < 0)
convSpeed = 999;
if (cv_speed_xoffset.value == 0 && cv_speed_yoffset.value == 0)
{
if (gametype == GT_BATTLE)
battleoffset = -4;
if (K_RingsActive() == true)
{
ringoffset = -16;
oldringoffset = 6;
}
}
if (cv_newspeedometer.value == 0)
{
switch (cv_kartspeedometer.value) {
case 1:
V_DrawKartString(SPDM_X + oldringoffset, SPDM_Y-18 + battleoffset + ringoffset, V_HUDTRANS|splitflags, va("%3d km/h", convSpeed));
break;
case 2:
V_DrawKartString(SPDM_X + oldringoffset, SPDM_Y-18 + battleoffset + ringoffset, V_HUDTRANS|splitflags, va("%3d mph", convSpeed));
break;
case 3:
V_DrawKartString(SPDM_X + oldringoffset, SPDM_Y-18 + battleoffset + ringoffset, V_HUDTRANS|splitflags, va("%3d fu/t", convSpeed));
break;
case 4:
V_DrawKartString(SPDM_X + oldringoffset, SPDM_Y-18 + battleoffset + ringoffset, V_HUDTRANS|splitflags, va("%4d %%", convSpeed));
break;
default:
break;
}
}
else if (cv_newspeedometer.value == 1)
{
numbers[0] = ((convSpeed / 100) % 10);
numbers[1] = ((convSpeed / 10) % 10);
numbers[2] = (convSpeed % 10);
if (!K_UseColorHud())
{
V_DrawScaledPatch(SPDM_X, SPDM_Y-9 + battleoffset + ringoffset, V_HUDTRANS|splitflags, kp_speedometersticker[0]);
}
else
{
UINT8 *colormap = R_GetTranslationColormap(TC_DEFAULT, K_GetHudColor(), GTC_CACHE);
V_DrawMappedPatch(SPDM_X, SPDM_Y-9 + battleoffset + ringoffset, V_HUDTRANS|splitflags, kp_speedometersticker[1], colormap);
}
V_DrawScaledPatch(SPDM_X+7, SPDM_Y-9 + battleoffset + ringoffset, V_HUDTRANS|splitflags, kp_facenum[numbers[0]]);
V_DrawScaledPatch(SPDM_X+13, SPDM_Y-9 + battleoffset + ringoffset, V_HUDTRANS|splitflags, kp_facenum[numbers[1]]);
V_DrawScaledPatch(SPDM_X+19, SPDM_Y-9 + battleoffset + ringoffset, V_HUDTRANS|splitflags, kp_facenum[numbers[2]]);
V_DrawScaledPatch(SPDM_X+29, SPDM_Y-9 + battleoffset + ringoffset, V_HUDTRANS|splitflags, kp_speedometerlabel[labeln]);
}
// Readded later need to draw smaller graphics.
/*else if (cv_newspeedometer.value == 2)
{
fixed_t fuspeed = FixedDiv(stplyr->speed, mapobjectscale)/FRACUNIT;
INT32 spdpatch = 0;
#define NUM_INTERVALS 22
const int speedIntervals[NUM_INTERVALS] = {2, 5, 7, 10, 12, 15, 17, 20, 22, 25, 27, 30, 32, 35, 37, 40, 42, 45, 47, 50, 52, 55};
for (int i = 0; i < NUM_INTERVALS; ++i)
{
if (fuspeed < speedIntervals[i])
{
spdpatch = i;
break;
}
}
#undef NUM_INTERVALS
if (((fuspeed < 57 && fuspeed > 54) || (fuspeed < 60 && fuspeed > 56) || (fuspeed > 59)) && (leveltime & 4))
spdpatch = 24;
else if (((fuspeed < 57 && fuspeed > 54) || (fuspeed < 60 && fuspeed > 56) || (fuspeed > 59)) && !(leveltime & 4))
spdpatch = 23;
V_DrawScaledPatch(SPDM_X, SPDM_Y-18 + battleoffset + ringoffset, V_HUDTRANS|splitflags, kp_kartzspeedo[spdpatch]);
}*/
K_drawKartAccessibilityIcons((cv_newspeedometer.value == 0) ? 50 : 56);
}
static void K_drawRingMeter(void)
{
UINT8 rn[2];
UINT8 *ringmap = NULL;
boolean colorring = false;
SINT8 ringcount = stplyr->rings;
INT32 fx = 0, fy = 0, splitflags = 0; // stuff for 3p / 4p splitscreen.
rn[0] = ((abs(ringcount) / 10) % 10);
rn[1] = (abs(ringcount) % 10);
drawinfo_t info;
K_getRingsDrawinfo(&info);
fx = info.x;
fy = info.y;
splitflags = info.flags;
if (ringcount <= 0 && (leveltime/5 & 1)) // In debt
{
ringmap = R_GetTranslationColormap(TC_RAINBOW, SKINCOLOR_CRIMSON, GTC_CACHE);
colorring = true;
}
else if (ringcount >= 20) // Maxed out
ringmap = R_GetTranslationColormap(TC_RAINBOW, SKINCOLOR_YELLOW, GTC_CACHE);
if (r_splitscreen > 1)
{
V_DrawMappedPatch(fx, fy-10, V_HUDTRANS|splitflags, kp_ringsplitscreen, (colorring ? ringmap : NULL));
if (ringcount < 0) // Draw the minus for ring debt
V_DrawMappedPatch(fx+7, fy-8, V_HUDTRANS|splitflags, kp_ringdebtminussmall, ringmap);
V_DrawMappedPatch(fx+11, fy-10, V_HUDTRANS|splitflags, fontv[PINGNUM_FONT].font[rn[0]], ringmap);
V_DrawMappedPatch(fx+15, fy-10, V_HUDTRANS|splitflags, fontv[PINGNUM_FONT].font[rn[1]], ringmap);
}
else
{
SINT8 i;
SINT8 ringoffsety = 0;
UINT8 *colormap = NULL;
SINT8 coloroffset = 0;
if (gametype == GT_BATTLE)
ringoffsety -= 4;
if (itembreaker)
ringoffsety -= 2;
if (K_UseColorHud())
coloroffset = 2;
colormap = R_GetTranslationColormap(TC_DEFAULT, K_GetHudColor(), GTC_CACHE);
V_DrawMappedPatch(fx, fy-14 + ringoffsety, V_HUDTRANS|splitflags, kp_ringsticker[((stplyr->pflags & PF_RINGLOCK) ? 1 : 0) + coloroffset], colormap);
if (stplyr->rings < 0) // Draw the minus for ring debt
{
V_DrawMappedPatch(fx-5, fy-11 + ringoffsety, V_HUDTRANS|splitflags, kp_ringdebtminus, ringmap);
}
if (stplyr->rings < 0)
{
// Invert the ring count
ringcount = -ringcount;
}
if (rn[1] == 1 && ringcount == 11)
V_DrawMappedPatch(fx+2, fy-11 + ringoffsety, V_HUDTRANS|splitflags, kp_facenum[rn[0]], ringmap);
else
V_DrawMappedPatch(fx+2, fy-11 + ringoffsety, V_HUDTRANS|splitflags, kp_facenum[rn[0]], ringmap);
if (rn[1] == 1 && ringcount == 11)
V_DrawMappedPatch(fx+7, fy-11 + ringoffsety, V_HUDTRANS|splitflags, kp_facenum[rn[1]], ringmap);
else
V_DrawMappedPatch(fx+8, fy-11 + ringoffsety, V_HUDTRANS|splitflags, kp_facenum[rn[1]], ringmap);
// Draw the fillbars
if (stplyr->rings)
{
UINT8 barcolors[5] = {66,72,2,68};
boolean indebt = false;
if (stplyr->rings < 0)
{
barcolors[0] = 38;
barcolors[1] = 36;
barcolors[2] = 32;
barcolors[3] = 40;
indebt = true;
}
if (!indebt || (indebt && (leveltime/5 & 1)))
{
for (i = 0; i != ringcount; i++)
{
V_DrawFill(fx+17+(2*i), fy-10 + ringoffsety, 1, 1, barcolors[0]|splitflags);
V_DrawFill(fx+17+(2*i), fy-9 + ringoffsety, 1, 4, barcolors[1]|splitflags);
V_DrawFill(fx+17+(2*i), fy-8 + ringoffsety, 1, 1, barcolors[2]|splitflags);
V_DrawFill(fx+17+(2*i), fy-7 + ringoffsety, 1, 1, barcolors[3]|splitflags);
}
}
}
}
}
static void K_drawKartBumpersOrKarma(void)
{
UINT8 *colormap = R_GetTranslationColormap(TC_DEFAULT, K_GetHudColor(), GTC_CACHE);
INT32 fx = 0, fy = 0, splitflags = 0; // stuff for 3p / 4p splitscreen.
drawinfo_t info;
K_getLapsDrawinfo(&info);
fx = info.x;
fy = info.y;
splitflags = info.flags;
if (r_splitscreen > 1)
{
V_DrawScaledPatch(fx+22, fy, V_HUDTRANS|splitflags, frameslash);
if (itembreaker)
{
V_DrawMappedPatch(fx+1, fy-2, V_HUDTRANS|splitflags, kp_rankcapsule, NULL);
if (numtargets > 9 || nummapboxes > 9)
{
UINT8 ln[2];
ln[0] = ((numtargets / 10) % 10);
ln[1] = (numtargets % 10);
V_DrawScaledPatch(fx+13, fy, V_HUDTRANS|splitflags, fontv[PINGNUM_FONT].font[ln[0]]);
V_DrawScaledPatch(fx+17, fy, V_HUDTRANS|splitflags, fontv[PINGNUM_FONT].font[ln[1]]);
ln[0] = ((nummapboxes / 10) % 10);
ln[1] = (nummapboxes % 10);
V_DrawScaledPatch(fx+27, fy, V_HUDTRANS|splitflags, fontv[PINGNUM_FONT].font[ln[0]]);
V_DrawScaledPatch(fx+31, fy, V_HUDTRANS|splitflags, fontv[PINGNUM_FONT].font[ln[1]]);
}
else
{
V_DrawScaledPatch(fx+13, fy, V_HUDTRANS|splitflags, kp_facenum[numtargets % 10]);
V_DrawScaledPatch(fx+27, fy, V_HUDTRANS|splitflags, kp_facenum[nummapboxes % 10]);
}
}
else
{
if (stplyr->bumper <= 0)
{
V_DrawMappedPatch(fx, fy-1, V_HUDTRANS|splitflags, kp_splitkarmabomb, colormap);
V_DrawString(fx+13, fy+1, V_HUDTRANS|splitflags, va("%d/2", stplyr->karmapoints));
}
else
{
INT32 maxbumper = K_StartingBumperCount();
V_DrawMappedPatch(fx+1, fy-2, V_HUDTRANS|splitflags, kp_rankbumper, colormap);
if (stplyr->bumper > 9 || maxbumper > 9)
{
UINT8 ln[2];
ln[0] = (stplyr->bumper / 10 % 10);
ln[1] = (stplyr->bumper % 10);
V_DrawScaledPatch(fx+13, fy, V_HUDTRANS|splitflags, fontv[PINGNUM_FONT].font[ln[0]]);
V_DrawScaledPatch(fx+17, fy, V_HUDTRANS|splitflags, fontv[PINGNUM_FONT].font[ln[1]]);
ln[0] = ((abs(maxbumper) / 10) % 10);
ln[1] = (abs(maxbumper) % 10);
V_DrawScaledPatch(fx+27, fy, V_HUDTRANS|splitflags, fontv[PINGNUM_FONT].font[ln[0]]);
V_DrawScaledPatch(fx+31, fy, V_HUDTRANS|splitflags, fontv[PINGNUM_FONT].font[ln[1]]);
}
else
{
V_DrawScaledPatch(fx+13, fy, V_HUDTRANS|splitflags, kp_facenum[(stplyr->bumper) % 10]);
V_DrawScaledPatch(fx+27, fy, V_HUDTRANS|splitflags, kp_facenum[(maxbumper) % 10]);
}
}
}
}
else
{
if (itembreaker)
{
patch_t *item = W_CachePatchLongName("RNDMA0", PU_PATCH);
UINT8 *itemcolormap = R_GetTranslationColormap(TC_BLINK, SKINCOLOR_BLACK, GTC_CACHE);
if (!K_UseColorHud())
{
V_DrawScaledPatch(fx, fy, V_HUDTRANS|splitflags, kp_timesticker[0]);
}
else //Colourized hud
{
V_DrawMappedPatch(fx, fy, V_HUDTRANS|splitflags, kp_timesticker[1], colormap);
}
V_DrawStretchyFixedPatch((29 + item->width/2/4)*FRACUNIT, 193*FRACUNIT, FRACUNIT/2, FRACUNIT/2, V_HUDTRANS|splitflags, item, itemcolormap);
V_DrawStretchyFixedPatch((29 + item->width/2/4)*FRACUNIT, 192*FRACUNIT, FRACUNIT/2, FRACUNIT/2, V_HUDTRANS|splitflags, item, NULL);
V_DrawKartString(fx+47, fy+3, V_HUDTRANS|splitflags, va("%d/%d", numtargets, nummapboxes));
}
else
{
if (stplyr->bumper <= 0)
{
V_DrawMappedPatch(fx, fy, V_HUDTRANS|splitflags, (K_UseColorHud() ? kp_karmasticker[1] : kp_karmasticker[0]), colormap);
V_DrawKartString(fx+47, fy+3, V_HUDTRANS|splitflags, va("%d/2", stplyr->karmapoints));
}
else
{
INT32 maxbumper = K_StartingBumperCount();
if (stplyr->bumper > 9 && maxbumper > 9)
V_DrawMappedPatch(fx, fy, V_HUDTRANS|splitflags, (K_UseColorHud() ? kp_bumperstickerwide[1] : kp_bumperstickerwide[0]), colormap);
else
V_DrawMappedPatch(fx, fy, V_HUDTRANS|splitflags, (K_UseColorHud() ? kp_bumpersticker[1] : kp_bumpersticker[0]), colormap);
V_DrawKartString(fx+47, fy+3, V_HUDTRANS|splitflags, va("%d/%d", stplyr->bumper, maxbumper));
}
}
}
}
static void K_drawKartWanted(void)
{
UINT8 i, numwanted = 0;
UINT8 *colormap = NULL;
INT32 basex = 0, basey = 0;
for (i = 0; i < 4; i++)
{
if (battlewanted[i] == -1)
break;
numwanted++;
}
if (numwanted <= 0)
return;
// set X/Y coords depending on splitscreen.
if (r_splitscreen < 3) // 1P and 2P use the same code.
{
basex = WANT_X;
basey = WANT_Y;
if (r_splitscreen == 2)
{
basey += 16; // slight adjust for 3P
basex -= 6;
}
else if (!r_splitscreen)
{
basex -= 48;
}
}
else if (r_splitscreen == 3) // 4P splitscreen...
{
basex = BASEVIDWIDTH/2 - (SHORT(kp_wantedsplit->width)/2); // center on screen
basey = BASEVIDHEIGHT - 55;
//basey2 = 4;
}
if (battlewanted[0] != -1)
colormap = R_GetTranslationColormap(0, players[battlewanted[0]].skincolor, GTC_CACHE);
V_DrawFixedPatch(basex<<FRACBITS, basey<<FRACBITS, FRACUNIT, V_HUDTRANS|(r_splitscreen < 3 ? V_SNAPTORIGHT : 0)|V_SNAPTOBOTTOM, (r_splitscreen > 1 ? kp_wantedsplit : kp_wanted), colormap);
/*if (basey2)
V_DrawFixedPatch(basex<<FRACBITS, basey2<<FRACBITS, FRACUNIT, V_HUDTRANS|V_SNAPTOTOP, (splitscreen == 3 ? kp_wantedsplit : kp_wanted), colormap); // < used for 4p splits.*/
for (i = 0; i < numwanted; i++)
{
INT32 x = basex+(r_splitscreen > 1 ? 13 : 8), y = basey+(r_splitscreen > 1 ? 16 : 21);
fixed_t scale = FRACUNIT/2;
player_t *p = &players[battlewanted[i]];
if (battlewanted[i] == -1)
break;
if (numwanted == 1)
scale = FRACUNIT;
else
{
if (i & 1)
x += 16;
if (i > 1)
y += 16;
}
if (players[battlewanted[i]].skincolor)
{
colormap = R_GetTranslationColormap(TC_RAINBOW, p->skincolor, GTC_CACHE);
V_DrawFixedPatch(x<<FRACBITS, y<<FRACBITS, FRACUNIT, V_HUDTRANS|(r_splitscreen < 3 ? V_SNAPTORIGHT : 0)|V_SNAPTOBOTTOM, (scale == FRACUNIT ? faceprefix[p->skin][FACE_WANTED] : faceprefix[p->skin][FACE_RANK]), colormap);
/*if (basey2) // again with 4p stuff
V_DrawFixedPatch(x<<FRACBITS, (y - (basey-basey2))<<FRACBITS, FRACUNIT, V_HUDTRANS|V_SNAPTOTOP, (scale == FRACUNIT ? faceprefix[p->skin][FACE_WANTED] : faceprefix[p->skin][FACE_RANK]), colormap);*/
}
}
}
static void K_drawKartPlayerCheck(void)
{
const fixed_t maxdistance = FixedMul(1280 * mapobjectscale, K_GetKartGameSpeedScalar(gamespeed));
UINT8 i;
INT32 splitflags = V_SNAPTOBOTTOM|V_SPLITSCREEN;
fixed_t y = CHEK_Y * FRACUNIT;
if (stplyr == NULL || stplyr->mo == NULL || P_MobjWasRemoved(stplyr->mo))
{
return;
}
if (stplyr->spectator || stplyr->awayviewtics)
{
return;
}
if (stplyr->cmd.buttons & BT_LOOKBACK)
{
return;
}
for (i = 0; i < MAXPLAYERS; i++)
{
player_t *checkplayer = &players[i];
fixed_t distance = maxdistance+1;
UINT8 *colormap = NULL;
UINT8 pnum = 0;
vector3_t v;
vector3_t pPos;
trackingResult_t result;
if (!playeringame[i] || checkplayer->spectator)
{
// Not in-game
continue;
}
if (checkplayer->mo == NULL || P_MobjWasRemoved(checkplayer->mo))
{
// No object
continue;
}
if (checkplayer == stplyr)
{
// This is you!
continue;
}
v.x = R_InterpolateFixed(checkplayer->mo->old_x, checkplayer->mo->x);
v.y = R_InterpolateFixed(checkplayer->mo->old_y, checkplayer->mo->y);
v.z = R_InterpolateFixed(checkplayer->mo->old_z, checkplayer->mo->z);
pPos.x = R_InterpolateFixed(stplyr->mo->old_x, stplyr->mo->x);
pPos.y = R_InterpolateFixed(stplyr->mo->old_y, stplyr->mo->y);
pPos.z = R_InterpolateFixed(stplyr->mo->old_z, stplyr->mo->z);
distance = R_PointToDist2(pPos.x, pPos.y, v.x, v.y);
if (distance > maxdistance)
{
// Too far away
continue;
}
if ((checkplayer->invincibilitytimer <= 0) && (leveltime & 2))
{
pnum++; // white frames
}
if (checkplayer->itemtype == KITEM_GROW || checkplayer->growshrinktimer > 0)
{
pnum += 4;
}
else if (checkplayer->itemtype == KITEM_INVINCIBILITY || checkplayer->invincibilitytimer)
{
pnum += 2;
}
K_ObjectTracking(&result, &v, true);
if (result.onScreen == true)
{
colormap = R_GetTranslationColormap(TC_DEFAULT, checkplayer->mo->color, GTC_CACHE);
V_DrawFixedPatch(result.x, y, FRACUNIT, V_HUDTRANS|V_SPLITSCREEN|splitflags, kp_check[pnum], colormap);
}
}
}
static boolean K_ShowPlayerNametag(player_t *p)
{
if (cv_seenames.value == 0)
{
return false;
}
if (demo.playback == true && camera[R_GetViewNumber()].freecam == true)
{
return true;
}
if (stplyr == p)
{
return false;
}
if (gametyperules & GTR_CIRCUIT)
{
if ((p->position == 0)
|| (stplyr->position == 0)
|| (p->position < stplyr->position-2)
|| (p->position > stplyr->position+2))
{
return false;
}
}
return true;
}
static void K_DrawLocalTagForPlayer(fixed_t x, fixed_t y, player_t *p, UINT8 id)
{
UINT16 chatcolor = skincolors[p->skincolor].chatcolor;
char letters[4] = {'A', 'B', 'C', 'D'};
V_DrawCenteredSmallStringAtFixed(x, y, V_HUDTRANS|V_ALLOWLOWERCASE|V_SPLITSCREEN|chatcolor, va("%c\nv", letters[id]));
}
static void K_DrawRivalTagForPlayer(fixed_t x, fixed_t y)
{
UINT16 chatcolor = skincolors[SKINCOLOR_ORANGE].chatcolor;
V_DrawCenteredSmallStringAtFixed(x, y, V_HUDTRANS|V_ALLOWLOWERCASE|V_SPLITSCREEN|chatcolor, "Rival\nv");
}
static const char *K_StringTypingDot(player_t *p)
{
static const char *dots = "...";
return dots + CLAMP(3 - p->typing_duration/16, 0, 3);
}
static void K_DrawTypingNotifier(fixed_t x, fixed_t y, player_t *p)
{
if (p->cmd.flags & TICCMD_TYPING)
{
V_DrawCenteredSmallStringAtFixed(x, y, V_SPLITSCREEN, va("Typing%s",K_StringTypingDot(p)));
}
}
static void K_DrawNameTagForPlayer(fixed_t x, fixed_t y, player_t *p)
{
const INT32 clr = skincolors[p->skincolor].chatcolor;
const INT32 namelen = V_ThinStringWidth(player_names[p - players], V_6WIDTHSPACE|V_ALLOWLOWERCASE);
UINT8 *colormap = V_GetStringColormap(clr);
INT32 barx = 0, bary = 0, barw = 0;
UINT8 cnum = R_GetViewNumber();
// Since there's no "V_DrawFixedFill", and I don't feel like making it,
// fuck it, we're gonna just V_NOSCALESTART hack it
if (cnum & 1)
{
x += (BASEVIDWIDTH/2) * FRACUNIT;
}
if ((r_splitscreen == 1 && cnum == 1)
|| (r_splitscreen > 1 && cnum > 1))
{
y += (BASEVIDHEIGHT/2) * FRACUNIT;
}
barw = (namelen * vid.dupx);
barx = (x * vid.dupx) / FRACUNIT;
bary = (y * vid.dupy) / FRACUNIT;
barx += (6 * vid.dupx);
bary -= (16 * vid.dupx);
// Center it if necessary
if (vid.width != BASEVIDWIDTH * vid.dupx)
{
barx += (vid.width - (BASEVIDWIDTH * vid.dupx)) / 2;
}
if (vid.height != BASEVIDHEIGHT * vid.dupy)
{
bary += (vid.height - (BASEVIDHEIGHT * vid.dupy)) / 2;
}
// Lat: 10/06/2020: colormap can be NULL on the frame you join a game, just arbitrarily use palette indexes 31 and 0 instead of whatever the colormap would give us instead to avoid crashes.
// Draw the stem
{
fixed_t stemx;
fixed_t stemy;
int j;
/*boolean flipcam = (p->pflags & PF_FLIPCAM) && (p->mo->eflags & MFE_VERTICALFLIP);
boolean flipped;
if (flipcam)
flipped = (p->mo->eflags & MFE_VERTICALFLIP) != (stplyr->mo->eflags & MFE_VERTICALFLIP);
else
flipped = p->mo->eflags & MFE_VERTICALFLIP;*/
stemx = (x * vid.dupx) / FRACUNIT;
stemy = (y * vid.dupy) / FRACUNIT;
// Center it if necessary
if (vid.width != BASEVIDWIDTH * vid.dupx)
{
stemx += (vid.width - (BASEVIDWIDTH * vid.dupx)) / 2;
}
if (vid.height != BASEVIDHEIGHT * vid.dupy)
{
stemy += (vid.height - (BASEVIDHEIGHT * vid.dupy)) / 2;
}
for (j = 0; j < 4; j++)
{
stemy -= vid.dupy*4;
V_DrawFill(stemx, stemy, vid.dupy*3, vid.dupy*4, (colormap ? colormap[31] : 31)|V_NOSCALESTART);
V_DrawFill(stemx+vid.dupx, stemy + vid.dupy, vid.dupy, vid.dupy*4, (colormap ? colormap[0] : 0)|V_NOSCALESTART);
stemx += vid.dupx;
}
V_DrawFill(barx, bary, barw, (3 * vid.dupy), (colormap ? colormap[31] : 31)|V_NOSCALESTART);
V_DrawFill(barx, bary + vid.dupy, barw, vid.dupy, (colormap ? colormap[0] : 0)|V_NOSCALESTART);
V_DrawFill(stemx+vid.dupx, stemy+vid.dupy, barw - vid.dupx*3, vid.dupy, (colormap ? colormap[0] : 0)|V_NOSCALESTART);
}
// END DRAWFILL DUMBNESS
// Draw the name itself
V_DrawThinStringAtFixed(x + (5*FRACUNIT), y - (26*FRACUNIT), V_6WIDTHSPACE|V_ALLOWLOWERCASE|clr, player_names[p - players]);
}
typedef struct weakspotdraw_t
{
UINT8 i;
INT32 x;
INT32 y;
boolean candrawtag;
} weakspotdraw_t;
static void K_DrawWeakSpot(weakspotdraw_t *ws)
{
UINT8 *colormap;
UINT8 j = (bossinfo.weakspots[ws->i].type == SPOT_BUMP) ? 1 : 0;
tic_t flashtime = ~1; // arbitrary high even number
if (bossinfo.weakspots[ws->i].time < TICRATE)
{
if (bossinfo.weakspots[ws->i].time & 1)
return;
flashtime = bossinfo.weakspots[ws->i].time;
}
else if (bossinfo.weakspots[ws->i].time > (WEAKSPOTANIMTIME - TICRATE))
flashtime = WEAKSPOTANIMTIME - bossinfo.weakspots[ws->i].time;
if (flashtime & 1)
colormap = R_GetTranslationColormap(TC_ALLWHITE, 0, GTC_CACHE);
else
colormap = R_GetTranslationColormap(TC_RAINBOW, bossinfo.weakspots[ws->i].color, GTC_CACHE);
V_DrawFixedPatch(ws->x, ws->y, FRACUNIT, 0, kp_bossret[j], colormap);
if (!ws->candrawtag || flashtime & 1 || flashtime < TICRATE/2)
return;
V_DrawFixedPatch(ws->x, ws->y, FRACUNIT, 0, kp_bossret[j+1], colormap);
}
static void K_drawKartNameTags(void)
{
const fixed_t maxdistance = 8192*mapobjectscale;
vector3_t c;
UINT8 cnum = R_GetViewNumber();
UINT8 tobesorted[MAXPLAYERS];
fixed_t sortdist[MAXPLAYERS];
UINT8 sortlen = 0;
UINT8 i, j;
if (stplyr == NULL || stplyr->mo == NULL || P_MobjWasRemoved(stplyr->mo))
{
return;
}
if (stplyr->awayviewtics)
{
return;
}
// Crop within splitscreen bounds
switch (r_splitscreen)
{
case 1:
V_SetClipRect(
0,
cnum == 1 ? (BASEVIDHEIGHT / 2) * FRACUNIT : 0,
BASEVIDWIDTH * FRACUNIT,
(BASEVIDHEIGHT / 2) * FRACUNIT,
0
);
break;
case 2:
case 3:
V_SetClipRect(
cnum & 1 ? (BASEVIDWIDTH / 2) * FRACUNIT : 0,
cnum > 1 ? (BASEVIDHEIGHT / 2) * FRACUNIT : 0,
(BASEVIDWIDTH / 2) * FRACUNIT,
(BASEVIDHEIGHT / 2) * FRACUNIT,
0
);
break;
}
c.x = viewx;
c.y = viewy;
c.z = viewz;
// Maybe shouldn't be handling this here... but the camera info is too good.
if (bossinfo.boss)
{
weakspotdraw_t weakspotdraw[NUMWEAKSPOTS];
UINT8 numdraw = 0;
boolean onleft = false;
for (i = 0; i < NUMWEAKSPOTS; i++)
{
trackingResult_t result;
vector3_t v;
if (bossinfo.weakspots[i].spot == NULL || P_MobjWasRemoved(bossinfo.weakspots[i].spot))
{
// No object
continue;
}
if (bossinfo.weakspots[i].time == 0 || bossinfo.weakspots[i].type == SPOT_NONE)
{
// not visible
continue;
}
v.x = R_InterpolateFixed(bossinfo.weakspots[i].spot->old_x, bossinfo.weakspots[i].spot->x);
v.y = R_InterpolateFixed(bossinfo.weakspots[i].spot->old_y, bossinfo.weakspots[i].spot->y);
v.z = R_InterpolateFixed(bossinfo.weakspots[i].spot->old_z, bossinfo.weakspots[i].spot->z);
v.z += (bossinfo.weakspots[i].spot->height / 2);
K_ObjectTracking(&result, &v, false);
if (result.onScreen == false)
{
continue;
}
weakspotdraw[numdraw].i = i;
weakspotdraw[numdraw].x = result.x;
weakspotdraw[numdraw].y = result.y;
weakspotdraw[numdraw].candrawtag = true;
for (j = 0; j < numdraw; j++)
{
if (abs(weakspotdraw[j].x - weakspotdraw[numdraw].x) > 50*FRACUNIT)
{
continue;
}
onleft = (weakspotdraw[j].x < weakspotdraw[numdraw].x);
if (abs((onleft ? -5 : 5)
+ weakspotdraw[j].y - weakspotdraw[numdraw].y) > 18*FRACUNIT)
{
continue;
}
if (weakspotdraw[j].x < weakspotdraw[numdraw].x)
{
weakspotdraw[j].candrawtag = false;
break;
}
weakspotdraw[numdraw].candrawtag = false;
break;
}
numdraw++;
}
for (i = 0; i < numdraw; i++)
{
K_DrawWeakSpot(&weakspotdraw[i]);
}
}
for (i = 0; i < MAXPLAYERS; i++)
{
player_t *ntplayer = &players[i];
fixed_t distance = maxdistance+1;
vector3_t v;
if (!playeringame[i] || ntplayer->spectator)
{
// Not in-game
continue;
}
if (ntplayer->mo == NULL || P_MobjWasRemoved(ntplayer->mo))
{
// No object
continue;
}
if (ntplayer->mo->renderflags & K_GetPlayerDontDrawFlag(stplyr))
{
// Invisible on this screen
continue;
}
if ((gametyperules & GTR_BUMPERS) && (ntplayer->bumper <= 0))
{
// Dead in Battle
continue;
}
if (!P_CheckSight(stplyr->mo, ntplayer->mo))
{
// Can't see
continue;
}
v.x = R_InterpolateFixed(ntplayer->mo->old_x, ntplayer->mo->x);
v.y = R_InterpolateFixed(ntplayer->mo->old_y, ntplayer->mo->y);
v.z = R_InterpolateFixed(ntplayer->mo->old_z, ntplayer->mo->z);
if (!(ntplayer->mo->eflags & MFE_VERTICALFLIP))
{
v.z += ntplayer->mo->height;
}
distance = R_PointToDist2(c.x, c.y, v.x, v.y);
if (distance > maxdistance)
{
// Too far away
continue;
}
tobesorted[sortlen] = ntplayer - players;
sortdist[sortlen] = distance;
sortlen++;
}
if (sortlen > 0)
{
UINT8 sortedplayers[sortlen];
for (i = 0; i < sortlen; i++)
{
UINT8 pos = 0;
for (j = 0; j < sortlen; j++)
{
if (j == i)
{
continue;
}
if (sortdist[i] < sortdist[j]
|| (sortdist[i] == sortdist[j] && i > j))
{
pos++;
}
}
sortedplayers[pos] = tobesorted[i];
}
for (i = 0; i < sortlen; i++)
{
trackingResult_t result;
player_t *ntplayer = &players[sortedplayers[i]];
fixed_t headOffset = 36*ntplayer->mo->scale;
SINT8 localindicator = -1;
vector3_t v;
v.x = R_InterpolateFixed(ntplayer->mo->old_x, ntplayer->mo->x);
v.y = R_InterpolateFixed(ntplayer->mo->old_y, ntplayer->mo->y);
v.z = R_InterpolateFixed(ntplayer->mo->old_z, ntplayer->mo->z);
v.z += (ntplayer->mo->height / 2);
if (stplyr->mo->eflags & MFE_VERTICALFLIP)
{
v.z -= headOffset;
}
else
{
v.z += headOffset;
}
K_ObjectTracking(&result, &v, false);
if (result.onScreen == true)
{
if (!(demo.playback == true && camera[cnum].freecam == true))
{
for (j = 0; j <= r_splitscreen; j++)
{
if (ntplayer == &players[displayplayers[j]])
{
break;
}
}
if (j <= r_splitscreen && j != cnum)
{
localindicator = j;
}
}
if (localindicator >= 0)
{
K_DrawLocalTagForPlayer(result.x, result.y, ntplayer, localindicator);
}
else if (ntplayer->bot)
{
if (ntplayer->botvars.rival == true)
{
K_DrawRivalTagForPlayer(result.x, result.y);
}
}
else if (netgame || demo.playback)
{
if (K_ShowPlayerNametag(ntplayer) == true)
{
K_DrawNameTagForPlayer(result.x, result.y, ntplayer);
K_DrawTypingNotifier(result.x, result.y, ntplayer);
}
}
}
}
}
V_ClearClipRect();
}
static void K_drawKartMinimapIcon(fixed_t objx, fixed_t objy, INT32 hudx, INT32 hudy, INT32 flags, patch_t *icon, UINT8 *colormap)
{
// amnum xpos & ypos are the icon's speed around the HUD.
// The number being divided by is for how fast it moves.
// The higher the number, the slower it moves.
// am xpos & ypos are the icon's starting position. Withouht
// it, they wouldn't 'spawn' on the top-right side of the HUD.
fixed_t amnumxpos, amnumypos;
INT32 amxpos, amypos;
fixed_t scale = FRACUNIT;
if (!cv_showminimapangle.value && (icon == kp_minimapdot))
return;
if (cv_minihead.value)
scale = FRACUNIT / 2;
amnumxpos = (FixedMul(objx, minimapinfo.zoom) - minimapinfo.offs_x);
amnumypos = -(FixedMul(objy, minimapinfo.zoom) - minimapinfo.offs_y);
if (encoremode)
amnumxpos = -amnumxpos;
amxpos = amnumxpos + ((hudx + (SHORT(minimapinfo.minimap_pic->width)-SHORT(icon->width))/2)<<FRACBITS);
amypos = amnumypos + ((hudy + (SHORT(minimapinfo.minimap_pic->height)-SHORT(icon->height))/2)<<FRACBITS);
if (cv_minihead.value && !(icon == kp_minimapdot))
{
amxpos += 2 * FRACUNIT;
amypos += 2 * FRACUNIT;
}
if (cv_minihead.value && (icon == kp_wantedreticle))
{
amxpos += 2 * FRACUNIT;
amypos += 2 * FRACUNIT;
}
V_DrawFixedPatch(amxpos, amypos, scale, flags, icon, colormap);
}
static void K_drawKartMinimapNametag(fixed_t objx, fixed_t objy, INT32 hudx, INT32 hudy, INT32 flags, player_t *player)
{
// amnum xpos & ypos are the icon's speed around the HUD.
// The number being divided by is for how fast it moves.
// The higher the number, the slower it moves.
// am xpos & ypos are the icon's starting position. Withouht
// it, they wouldn't 'spawn' on the top-right side of the HUD.
if (!cv_showminimapnames.value)
{
return;
}
if (!player)
{
return;
}
if (!player->mo)
{
return;
}
fixed_t amnumxpos, amnumypos;
INT32 amxpos, amypos;
UINT16 skin = 0;
UINT16 chatcolor = skincolors[player->mo->color].chatcolor;
amnumxpos = (FixedMul(objx, minimapinfo.zoom) - minimapinfo.offs_x);
amnumypos = -(FixedMul(objy, minimapinfo.zoom) - minimapinfo.offs_y);
if (encoremode)
amnumxpos = -amnumxpos;
skin = ((skin_t*)player->mo->skin)-skins;
amxpos = amnumxpos + ((hudx + (SHORT(minimapinfo.minimap_pic->width)-SHORT(faceprefix[skin][FACE_MINIMAP]->width))/2)<<FRACBITS);
amypos = amnumypos + ((hudy + (SHORT(minimapinfo.minimap_pic->height)-SHORT(faceprefix[skin][FACE_MINIMAP]->height))/2)<<FRACBITS);
const char *player_name = va("%s",player_names[player - players]);
V_DrawCenteredSmallStringAtFixed(amxpos + (4*FRACUNIT), amypos - (3*FRACUNIT), V_ALLOWLOWERCASE|flags|chatcolor, player_name);
}
static void K_drawKartMinimapDot(fixed_t objx, fixed_t objy, INT32 hudx, INT32 hudy, INT32 flags, UINT8 color, UINT8 size)
{
fixed_t amnumxpos, amnumypos;
INT32 amxpos, amypos;
amnumxpos = (FixedMul(objx, minimapinfo.zoom) - minimapinfo.offs_x);
amnumypos = -(FixedMul(objy, minimapinfo.zoom) - minimapinfo.offs_y);
if (encoremode)
amnumxpos = -amnumxpos;
amxpos = (amnumxpos / FRACUNIT) + (SHORT(minimapinfo.minimap_pic->width) / 2);
amypos = (amnumypos / FRACUNIT) + (SHORT(minimapinfo.minimap_pic->height) / 2);
if (flags & V_NOSCALESTART)
{
amxpos *= vid.dupx;
amypos *= vid.dupy;
}
V_DrawFill((amxpos + hudx) - (size / 2), (amypos + hudy) - (size / 2), size, size, flags | color);
}
static void K_drawKartMinimapWaypoint(waypoint_t *wp, INT32 hudx, INT32 hudy, INT32 flags)
{
UINT8 pal = 0x95; // blue
UINT8 size = 3;
if (wp == stplyr->nextwaypoint)
{
pal = 0x70; // green
size = 6;
}
else if (K_GetWaypointIsShortcut(wp)) // shortcut
{
pal = 0x20; // pink
}
else if (!K_GetWaypointIsEnabled(wp)) // disabled
{
pal = 0x10; // gray
}
else if (wp->numnextwaypoints == 0 || wp->numprevwaypoints == 0)
{
pal = 0x40; // yellow
}
if (!(flags & V_NOSCALESTART))
{
hudx *= vid.dupx;
hudy *= vid.dupy;
}
K_drawKartMinimapDot(wp->mobj->x, wp->mobj->y, hudx, hudy, flags | V_NOSCALESTART, pal, size);
}
#define ICON_DOT_RADIUS (cv_minihead.value && !cv_showminimapnames.value) ? 8 : 10
typedef struct
{
boolean draw;
boolean red;
} spbdraw_t;
static spbdraw_t K_ShouldDrawSPB(mobj_t *mobj)
{
fixed_t dist;
spbdraw_t spbdraw;
spbdraw.draw = false;
spbdraw.red = false;
if (!mobj->tracer)
{
spbdraw.draw = true;
return spbdraw;
}
dist = FixedHypot(mobj->x-mobj->tracer->x, mobj->y-mobj->tracer->y)/mobj->tracer->scale;
if (dist < 3072)
{
spbdraw.draw = (dist > 1024);
spbdraw.red = (leveltime/2 % 2 == 0);
return spbdraw;
}
spbdraw.draw = true;
return spbdraw;
}
static void K_drawKartMinimap(void)
{
patch_t *workingPic;
INT32 i = 0;
INT32 x, y;
INT32 minimaptrans = cv_kartminimap.value;
INT32 splitflags = 0;
UINT16 skin = 0;
UINT8 *colormap = NULL;
SINT8 localplayers[MAXSPLITSCREENPLAYERS];
SINT8 numlocalplayers = 0;
mobj_t *mobj, *next; // for SPB drawing (or any other item(s) we may wanna draw, I dunno!)
fixed_t interpx, interpy;
spbdraw_t spb;
// Draw the HUD only when playing in a level.
// hu_stuff needs this, unlike st_stuff.
if (gamestate != GS_LEVEL)
return;
// Only draw for the first player
// Maybe move this somewhere else where this won't be a concern?
if (stplyr != &players[displayplayers[0]])
return;
if (minimapinfo.minimap_pic == NULL)
{
return; // no pic, just get outta here
}
drawinfo_t info;
K_getMinimapDrawinfo(&info);
x = info.x;
y = info.y;
splitflags = info.flags;
if (r_splitscreen < 2) // 1/2P right aligned
{
const tic_t length = TICRATE/2;
if (!lt_exitticker)
return;
if (lt_exitticker < length)
minimaptrans = (((INT32)lt_exitticker)*minimaptrans)/((INT32)length);
}
else if (r_splitscreen == 3) // 4P centered
{
const tic_t length = TICRATE/2;
if (!lt_exitticker)
return;
if (lt_exitticker < length)
minimaptrans = (((INT32)lt_exitticker)*minimaptrans)/((INT32)length);
}
// 3P lives in the middle of the bottom right player and shouldn't fade in OR slide
if (!minimaptrans)
return;
minimaptrans = ((10-minimaptrans)<<FF_TRANSSHIFT);
if (encoremode)
V_DrawScaledPatch(x+SHORT(minimapinfo.minimap_pic->width), y, splitflags|minimaptrans|V_FLIP, minimapinfo.minimap_pic);
else
V_DrawScaledPatch(x, y, splitflags|minimaptrans, minimapinfo.minimap_pic);
// initialize
for (i = 0; i < MAXSPLITSCREENPLAYERS; i++)
localplayers[i] = -1;
// Player's tiny icons on the Automap. (drawn opposite direction so player 1 is drawn last in splitscreen)
if (ghosts)
{
demoghost *g = ghosts;
while (g)
{
if (g->mo->skin)
skin = ((skin_t*)g->mo->skin)-skins;
else
skin = 0;
if (g->mo->color)
{
if (g->mo->colorized)
colormap = R_GetTranslationColormap(TC_RAINBOW, g->mo->color, GTC_CACHE);
else
colormap = R_GetTranslationColormap(skin, g->mo->color, GTC_CACHE);
}
else
colormap = NULL;
interpx = R_InterpolateFixed(g->mo->old_x, g->mo->x);
interpy = R_InterpolateFixed(g->mo->old_y, g->mo->y);
K_drawKartMinimapIcon(interpx, interpy, x, y, splitflags, faceprefix[skin][FACE_MINIMAP], colormap);
g = g->next;
}
if (!stplyr->mo || stplyr->spectator || (!cv_showfinishedplayers.value && stplyr->exiting))
return;
localplayers[numlocalplayers++] = stplyr-players;
}
else
{
for (i = MAXPLAYERS-1; i >= 0; i--)
{
if (!playeringame[i])
continue;
if (!players[i].mo || players[i].spectator || !players[i].mo->skin || (!cv_showfinishedplayers.value && stplyr->exiting))
continue;
if (i == displayplayers[0] || i == displayplayers[1] || i == displayplayers[2] || i == displayplayers[3])
{
// Draw display players on top of everything else
localplayers[numlocalplayers++] = i;
continue;
}
// Now we know it's not a display player, handle non-local player exceptions.
if ((gametyperules & GTR_BUMPERS) && players[i].bumper <= 0)
continue;
if (players[i].hyudorotimer > 0)
{
if (!((players[i].hyudorotimer < TICRATE/2
|| players[i].hyudorotimer > hyudorotime-(TICRATE/2))
&& !(leveltime & 1)))
continue;
}
mobj = players[i].mo;
if (players[i].mo->health <= 0 && players[i].pflags & PF_NOCONTEST)
{
workingPic = kp_nocontestminimap;
colormap = R_GetTranslationColormap(TC_DEFAULT, mobj->color, GTC_CACHE);
}
else
{
skin = ((skin_t*)players[i].mo->skin)-skins;
workingPic = faceprefix[skin][FACE_MINIMAP];
if (players[i].mo->color)
{
if (players[i].mo->colorized)
colormap = R_GetTranslationColormap(TC_RAINBOW, players[i].mo->color, GTC_CACHE);
else
colormap = R_GetTranslationColormap(skin, players[i].mo->color, GTC_CACHE);
}
else
colormap = NULL;
}
//if (doprogressionbar == false)
{
interpx = R_InterpolateFixed(mobj->old_x, mobj->x);
interpy = R_InterpolateFixed(mobj->old_y, mobj->y);
K_drawKartMinimapIcon(interpx, interpy, x, y, splitflags, workingPic, colormap);
if (mobj->player)
{
// Draw the Nametag
K_drawKartMinimapNametag(interpx, interpy, x, y, splitflags, &players[i]);
}
// Target reticule
if ((gametype == GT_RACE && players[i].position == spbplace)
|| (gametype == GT_BATTLE && K_IsPlayerWanted(&players[i])))
{
K_drawKartMinimapIcon(interpx, interpy, x, y, splitflags, kp_wantedreticle, NULL);
}
}
}
}
// draw minimap-pertinent objects
for (mobj = kitemcap; mobj; mobj = next)
{
next = mobj->itnext;
workingPic = NULL;
colormap = NULL;
if (mobj->health <= 0)
continue;
switch (mobj->type)
{
case MT_SPB:
spb = K_ShouldDrawSPB(mobj);
if (spb.draw)
{
INT32 tc = spb.red ? TC_BLINK : TC_DEFAULT;
skincolornum_t color = SKINCOLOR_RED;
// If not flashing red then...
if (!spb.red && mobj->color != SKINCOLOR_NONE)
{
// Use SPB's current color.
color = mobj->color;
}
workingPic = kp_spbminimap;
colormap = R_GetTranslationColormap(tc, color, GTC_CACHE);
}
else
{
workingPic = NULL;
}
break;
case MT_RANDOMITEM:
if (itembreaker && (mobj->flags2 & MF2_BOSSNOTRAP) && !(mobj->flags2 & MF2_BOSSFLEE))
{
workingPic = kp_itemboxminimap;
colormap = R_GetTranslationColormap(TC_DEFAULT, SKINCOLOR_YELLOW, GTC_CACHE);
}
else
workingPic = NULL;
break;
default:
break;
}
if (!workingPic)
continue;
interpx = R_InterpolateFixed(mobj->old_x, mobj->x);
interpy = R_InterpolateFixed(mobj->old_y, mobj->y);
K_drawKartMinimapIcon(interpx, interpy, x, y, splitflags, workingPic, colormap);
}
// draw our local players here, opaque.
{
splitflags &= ~V_HUDTRANSHALF;
splitflags |= V_HUDTRANS;
}
// ...but first, any boss targets.
if (bossinfo.boss)
{
for (i = 0; i < NUMWEAKSPOTS; i++)
{
// exists at all?
if (bossinfo.weakspots[i].spot == NULL || P_MobjWasRemoved(bossinfo.weakspots[i].spot))
continue;
// shows on the minimap?
if (bossinfo.weakspots[i].minimap == false)
continue;
// in the flashing period?
if ((bossinfo.weakspots[i].time > (WEAKSPOTANIMTIME-(TICRATE/2))) && (bossinfo.weakspots[i].time & 1))
continue;
colormap = NULL;
if (bossinfo.weakspots[i].color)
colormap = R_GetTranslationColormap(TC_RAINBOW, bossinfo.weakspots[i].color, GTC_CACHE);
interpx = R_InterpolateFixed(bossinfo.weakspots[i].spot->old_x, bossinfo.weakspots[i].spot->x);
interpy = R_InterpolateFixed(bossinfo.weakspots[i].spot->old_y, bossinfo.weakspots[i].spot->y);
// temporary graphic?
K_drawKartMinimapIcon(interpx, interpy, x, y, splitflags, kp_wantedreticle, colormap);
}
}
for (i = 0; i < numlocalplayers; i++)
{
boolean nocontest = false;
if (localplayers[i] == -1)
continue; // this doesn't interest us
if ((players[localplayers[i]].hyudorotimer > 0) && (leveltime & 1))
continue;
mobj = players[localplayers[i]].mo;
if (players[localplayers[i]].mo->health <= 0 && players[localplayers[i]].pflags & PF_NOCONTEST)
{
workingPic = kp_nocontestminimap;
colormap = R_GetTranslationColormap(TC_DEFAULT, mobj->color, GTC_CACHE);
nocontest = true;
}
else
{
skin = ((skin_t*)players[localplayers[i]].mo->skin)-skins;
workingPic = faceprefix[skin][FACE_MINIMAP];
if (players[localplayers[i]].mo->color)
{
if (players[localplayers[i]].mo->colorized)
colormap = R_GetTranslationColormap(TC_RAINBOW, players[localplayers[i]].mo->color, GTC_CACHE);
else
colormap = R_GetTranslationColormap(skin, players[localplayers[i]].mo->color, GTC_CACHE);
}
else
colormap = NULL;
}
//if (doprogressionbar == false)
{
angle_t ang = R_InterpolateAngle(mobj->old_angle, mobj->angle);
if (encoremode)
ang = ANGLE_180 - ang;
if (skin && mobj->color && !mobj->colorized // relevant to redo
&& skins[skin].starttranscolor != skins[0].starttranscolor) // redoing would have an affect
{
colormap = R_GetTranslationColormap(TC_DEFAULT, mobj->color, GTC_CACHE);
}
interpx = R_InterpolateFixed(mobj->old_x, mobj->x);
interpy = R_InterpolateFixed(mobj->old_y, mobj->y);
K_drawKartMinimapIcon(interpx, interpy, x, y, splitflags, workingPic, colormap);
// Target reticule
if ((gametype == GT_RACE && players[localplayers[i]].position == spbplace)
|| (gametype == GT_BATTLE && K_IsPlayerWanted(&players[localplayers[i]])))
{
K_drawKartMinimapIcon(interpx, interpy, x, y, splitflags, kp_wantedreticle, NULL);
}
if (!nocontest)
{
K_drawKartMinimapIcon(
interpx,
interpy,
x + FixedMul(FCOS(ang), ICON_DOT_RADIUS),
y - FixedMul(FSIN(ang), ICON_DOT_RADIUS),
splitflags,
kp_minimapdot,
colormap
);
}
K_drawKartMinimapNametag(interpx, interpy, x, y, splitflags, mobj->player);
}
}
if (cv_kartdebugwaypoints.value != 0)
{
size_t idx;
for (idx = 0; idx < K_GetNumWaypoints(); ++idx)
{
waypoint_t *wp = K_GetWaypointFromIndex(idx);
I_Assert(wp != NULL);
K_drawKartMinimapWaypoint(wp, x, y, splitflags);
}
if (stplyr->nextwaypoint != NULL)
{
// should be drawn on top of the others
K_drawKartMinimapWaypoint(stplyr->nextwaypoint, x, y, splitflags);
}
}
}
static void K_drawKartStartCountdown(void)
{
INT32 pnum = 0;
if (leveltime > starttime-(3*TICRATE))
{
if (leveltime >= starttime-(2*TICRATE)) // 2
pnum++;
if (leveltime >= starttime-TICRATE) // 1
pnum++;
if (leveltime >= starttime) // GO!
{
UINT8 i;
UINT8 numplayers = 0;
pnum++;
for (i = 0; i < MAXPLAYERS; i++)
{
if (playeringame[i] && !players[i].spectator)
numplayers++;
if (numplayers > 2)
break;
}
// Re-enable when graphics are drawn up for this.
/*if (numplayers == 2)
{
pnum++; // DUEL
}*/
}
if ((leveltime % (2*5)) / 5) // blink
pnum += 5;
if (r_splitscreen) // splitscreen
pnum += 10;
V_DrawScaledPatch(STCD_X - (SHORT(kp_startcountdown[pnum]->width)/2), STCD_Y - (SHORT(kp_startcountdown[pnum]->height)/2), V_SPLITSCREEN, kp_startcountdown[pnum]);
}
}
static void K_drawKartFinish(void)
{
INT32 pnum = 0, splitflags = V_SPLITSCREEN;
if (!stplyr->karthud[khud_cardanimation] || stplyr->karthud[khud_cardanimation] >= 2*TICRATE)
return;
if ((stplyr->karthud[khud_cardanimation] % (2*5)) / 5) // blink
pnum = 1;
if (r_splitscreen > 1) // 3/4p, stationary FIN
{
pnum += 2;
V_DrawScaledPatch(STCD_X - (SHORT(kp_racefinish[pnum]->width)/2), STCD_Y - (SHORT(kp_racefinish[pnum]->height)/2), splitflags, kp_racefinish[pnum]);
return;
}
//else -- 1/2p, scrolling FINISH
{
INT32 x, xval, ox, interpx;
if (r_splitscreen) // wide splitscreen
pnum += 4;
x = ((vid.width<<FRACBITS)/vid.dupx);
xval = (SHORT(kp_racefinish[pnum]->width)<<FRACBITS);
x = ((TICRATE - stplyr->karthud[khud_cardanimation])*(xval > x ? xval : x))/TICRATE;
ox = ((TICRATE - (stplyr->karthud[khud_cardanimation] - 1))*(xval > x ? xval : x))/TICRATE;
interpx = R_InterpolateFixed(ox, x);
if (r_splitscreen && stplyr == &players[displayplayers[1]])
interpx = -interpx;
V_DrawFixedPatch(interpx + (STCD_X<<FRACBITS) - (xval>>1),
(STCD_Y<<FRACBITS) - (SHORT(kp_racefinish[pnum]->height)<<(FRACBITS-1)),
FRACUNIT,
splitflags, kp_racefinish[pnum], NULL);
}
}
static void K_drawBattleFullscreen(void)
{
INT32 x = BASEVIDWIDTH/2;
INT32 y = -64+(stplyr->karthud[khud_cardanimation]); // card animation goes from 0 to 164, 164 is the middle of the screen
INT32 splitflags = V_SNAPTOTOP; // I don't feel like properly supporting non-green resolutions, so you can have a misuse of SNAPTO instead
fixed_t scale = FRACUNIT;
boolean drawcomebacktimer = true; // lazy hack because it's cleaner in the long run.
if (!LUA_HudEnabled(hud_battlecomebacktimer))
drawcomebacktimer = false;
if (r_splitscreen)
{
if ((splitscreen == 1 && stplyrnum == 1) || (splitscreen > 1 && stplyrnum & 2))
{
y = 232-(stplyr->karthud[khud_cardanimation]/2);
splitflags = V_SNAPTOBOTTOM;
}
else
y = -32+(stplyr->karthud[khud_cardanimation]/2);
if (r_splitscreen > 1)
{
scale /= 2;
if (stplyrnum & 1)
x = 3*BASEVIDWIDTH/4;
else
x = BASEVIDWIDTH/4;
}
else
{
if (stplyr->exiting)
{
if (stplyrnum & 1)
x = BASEVIDWIDTH-96;
else
x = 96;
}
else
scale /= 2;
}
}
if (stplyr->exiting)
{
if (stplyrnum == 0)
V_DrawFadeScreen(0xFF00, 16);
if (stplyr->exiting < 6*TICRATE && !stplyr->spectator)
{
patch_t *p = kp_battlecool;
if (K_IsPlayerLosing(stplyr))
p = kp_battlelose;
else if (stplyr->position == 1 && (!itembreaker || numtargets >= nummapboxes))
p = kp_battlewin;
V_DrawFixedPatch(x<<FRACBITS, y<<FRACBITS, scale, splitflags, p, NULL);
}
else
K_drawKartFinish();
}
else if (stplyr->bumper <= 0 && stplyr->karmadelay && comeback && !stplyr->spectator && drawcomebacktimer)
{
UINT16 t = stplyr->karmadelay/(10*TICRATE);
INT32 txoff, adjust = (r_splitscreen > 1) ? 4 : 6; // normal string is 8, kart string is 12, half of that for ease
INT32 ty = (BASEVIDHEIGHT/2)+66;
txoff = adjust;
while (t)
{
txoff += adjust;
t /= 10;
}
if (r_splitscreen)
{
if (r_splitscreen > 1)
ty = (BASEVIDHEIGHT/4)+33;
if ((splitscreen == 1 && stplyrnum == 1) || (splitscreen > 1 && stplyrnum & 2))
ty += (BASEVIDHEIGHT/2);
}
else
V_DrawFadeScreen(0xFF00, 16);
if (!comebackshowninfo)
V_DrawFixedPatch(x<<FRACBITS, y<<FRACBITS, scale, splitflags, kp_battleinfo, NULL);
else
V_DrawFixedPatch(x<<FRACBITS, y<<FRACBITS, scale, splitflags, kp_battlewait, NULL);
if (r_splitscreen > 1)
V_DrawString(x-txoff, ty, 0, va("%d", stplyr->karmadelay/TICRATE));
else
{
if (!K_UseColorHud())
V_DrawFixedPatch(x<<FRACBITS, ty<<FRACBITS, scale, 0, kp_timeoutsticker[0], NULL);
else //Colourized hud
{
UINT8 *colormap = R_GetTranslationColormap(TC_DEFAULT, K_GetHudColor(), GTC_CACHE);
V_DrawFixedPatch(x<<FRACBITS, ty<<FRACBITS, scale, 0, kp_timeoutsticker[1], colormap);
}
V_DrawKartString(x-txoff, ty, 0, va("%d", stplyr->karmadelay/TICRATE));
}
}
// FREE PLAY?
{
UINT8 i;
// check to see if there's anyone else at all
for (i = 0; i < MAXPLAYERS; i++)
{
if (i == displayplayers[0])
continue;
if (playeringame[i] && !players[i].spectator)
break;
}
if (i != MAXPLAYERS)
K_drawKartFreePlay();
}
}
static void K_drawKartFirstPerson(void)
{
static INT32 pnum[4], turn[4], drift[4];
const INT16 steerThreshold = KART_FULLTURN / 2;
INT32 pn = 0, tn = 0, dr = 0;
INT32 target = 0, splitflags = V_SNAPTOBOTTOM|V_SPLITSCREEN;
INT32 x = BASEVIDWIDTH/2, y = BASEVIDHEIGHT;
fixed_t scale;
UINT8 *colmap = NULL;
if (stplyr->spectator || !stplyr->mo || (stplyr->mo->renderflags & RF_DONTDRAW))
return;
if (stplyr == &players[displayplayers[1]] && r_splitscreen)
{ pn = pnum[1]; tn = turn[1]; dr = drift[1]; }
else if (stplyr == &players[displayplayers[2]] && r_splitscreen > 1)
{ pn = pnum[2]; tn = turn[2]; dr = drift[2]; }
else if (stplyr == &players[displayplayers[3]] && r_splitscreen > 2)
{ pn = pnum[3]; tn = turn[3]; dr = drift[3]; }
else
{ pn = pnum[0]; tn = turn[0]; dr = drift[0]; }
if (r_splitscreen)
{
y >>= 1;
if (r_splitscreen > 1)
x >>= 1;
}
{
if (stplyr->speed < (20*stplyr->mo->scale) && (leveltime & 1) && !r_splitscreen)
y++;
if (stplyr->mo->renderflags & RF_TRANSMASK)
splitflags |= ((stplyr->mo->renderflags & RF_TRANSMASK) >> RF_TRANSSHIFT) << FF_TRANSSHIFT;
else if (stplyr->mo->frame & FF_TRANSMASK)
splitflags |= (stplyr->mo->frame & FF_TRANSMASK);
}
if (stplyr->cmd.turning > steerThreshold) // strong left turn
target = 2;
else if (stplyr->cmd.turning < -steerThreshold) // strong right turn
target = -2;
else if (stplyr->cmd.turning > 0) // weak left turn
target = 1;
else if (stplyr->cmd.turning < 0) // weak right turn
target = -1;
else // forward
target = 0;
if (encoremode)
target = -target;
if (pn < target)
pn++;
else if (pn > target)
pn--;
if (pn < 0)
splitflags |= V_FLIP; // right turn
target = abs(pn);
if (target > 2)
target = 2;
x <<= FRACBITS;
y <<= FRACBITS;
if (tn != stplyr->cmd.turning/50)
tn -= (tn - (stplyr->cmd.turning/50))/8;
if (dr != stplyr->drift*16)
dr -= (dr - (stplyr->drift*16))/8;
if (r_splitscreen == 1)
{
scale = (2*FRACUNIT)/3;
y += FRACUNIT/(vid.dupx < vid.dupy ? vid.dupx : vid.dupy); // correct a one-pixel gap on the screen view (not the basevid view)
}
else if (r_splitscreen)
scale = FRACUNIT/2;
else
scale = FRACUNIT;
if (stplyr->mo)
{
UINT8 driftcolor = K_DriftSparkColor(stplyr, stplyr->driftcharge);
const angle_t ang = R_PointToAngle2(0, 0, stplyr->rmomx, stplyr->rmomy) - stplyr->drawangle;
// yes, the following is correct. no, you do not need to swap the x and y.
fixed_t xoffs = -P_ReturnThrustY(stplyr->mo, ang, (BASEVIDWIDTH<<(FRACBITS-2))/2);
fixed_t yoffs = -P_ReturnThrustX(stplyr->mo, ang, 4*FRACUNIT);
if ((yoffs += 4*FRACUNIT) < 0)
yoffs = 0;
if (r_splitscreen)
xoffs = FixedMul(xoffs, scale);
xoffs -= (tn)*scale;
xoffs -= (dr)*scale;
if (stplyr->drawangle == stplyr->mo->angle)
{
const fixed_t mag = FixedDiv(stplyr->speed, 10*stplyr->mo->scale);
if (mag < FRACUNIT)
{
xoffs = FixedMul(xoffs, mag);
if (!r_splitscreen)
yoffs = FixedMul(yoffs, mag);
}
}
if (stplyr->mo->momz > 0) // TO-DO: Draw more of the kart so we can remove this if!
yoffs += stplyr->mo->momz/3;
if (encoremode)
x -= xoffs;
else
x += xoffs;
if (!r_splitscreen)
y += yoffs;
if ((leveltime & 1) && (driftcolor != SKINCOLOR_NONE)) // drift sparks!
colmap = R_GetTranslationColormap(TC_RAINBOW, driftcolor, GTC_CACHE);
else if (stplyr->mo->colorized && stplyr->mo->color) // invincibility/grow/shrink!
colmap = R_GetTranslationColormap(TC_RAINBOW, stplyr->mo->color, GTC_CACHE);
}
V_DrawFixedPatch(x, y, scale, splitflags, kp_fpview[target], colmap);
if (stplyr == &players[displayplayers[1]] && r_splitscreen)
{ pnum[1] = pn; turn[1] = tn; drift[1] = dr; }
else if (stplyr == &players[displayplayers[2]] && r_splitscreen > 1)
{ pnum[2] = pn; turn[2] = tn; drift[2] = dr; }
else if (stplyr == &players[displayplayers[3]] && r_splitscreen > 2)
{ pnum[3] = pn; turn[3] = tn; drift[3] = dr; }
else
{ pnum[0] = pn; turn[0] = tn; drift[0] = dr; }
}
// doesn't need to ever support 4p
static void K_drawInput(void)
{
static INT32 pn = 0;
INT32 target = 0, splitflags = (V_SNAPTOBOTTOM|V_SNAPTORIGHT|V_SLIDEIN);
INT32 x = (BASEVIDWIDTH - 32)*FRACUNIT, y = (BASEVIDHEIGHT - 24)*FRACUNIT;
UINT8 *shadowcolormap = NULL;
INT32 offs, col;
const UINT8 hudcolor = K_GetHudColor();
const INT32 accent1 = splitflags | skincolors[hudcolor].ramp[5];
const INT32 accent2 = splitflags | skincolors[hudcolor].ramp[9];
const UINT8 *hudcolormap = R_GetTranslationColormap(0, hudcolor, GTC_CACHE);
if (r_splitscreen)
return;
#define BUTTW 8
#define BUTTH 11
#define drawbutt(xoffs, butt, symb)\
if ((K_GetKartButtons(stplyr) & butt))\
{\
offs = 2*FRACUNIT;\
col = accent1;\
}\
else\
{\
offs = 0;\
col = accent2;\
V_DrawFill((x + xoffs*FRACUNIT)>>FRACBITS, (y + BUTTH*FRACUNIT)>>FRACBITS, BUTTW-1, 2, splitflags|31);\
}\
V_DrawFill((x + xoffs*FRACUNIT)>>FRACBITS, (y+offs)>>FRACBITS, BUTTW-1, BUTTH, col);\
V_DrawFixedPatch(x + FRACUNIT + xoffs*FRACUNIT, y + offs + FRACUNIT, FRACUNIT, splitflags, fontv[TINY_FONT].font[symb-HU_FONTSTART], NULL)
drawbutt(-2*BUTTW, BT_ACCELERATE, 'A');
drawbutt( -BUTTW, BT_BRAKE, 'B');
drawbutt( 0, BT_DRIFT, 'D');
drawbutt( BUTTW, BT_ATTACK, 'I');
#undef drawbutt
#undef BUTTW
#undef BUTTH
y -= FRACUNIT;
if (cv_showinput.value > 1)
{
INT32 joyx, joyxoffs, joyy, joyyoffs;
joyxoffs = -8, joyyoffs = -24;
joyx = x>>FRACBITS, joyy = y>>FRACBITS;
// O backing
if (cv_showinput.value == 2)
{
shadowcolormap = R_GetTranslationColormap(0, SKINCOLOR_BLACK, GTC_CACHE);
V_DrawFixedPatch((joyx+joyxoffs)<<FRACBITS, (joyy+joyyoffs-1)<<FRACBITS, FRACUNIT, splitflags, joybacking, hudcolormap);
}
else
{
V_DrawFill(joyx+joyxoffs, joyy+joyyoffs-1, 16, 16, splitflags|accent2);
V_DrawFill(joyx+joyxoffs, joyy+joyyoffs+15, 16, 1, splitflags|31);
}
if (stplyr->cmd.turning || stplyr->cmd.throwdir)
{
INT16 turning = encoremode ? -stplyr->cmd.turning : stplyr->cmd.turning;
if (cv_showinput.value == 2)
{
V_DrawFixedPatch((joyx+joyxoffs+3-turning/80)<<FRACBITS, (joyy+joyyoffs+2-stplyr->cmd.throwdir/80)<<FRACBITS, FRACUNIT, splitflags, joyknob, shadowcolormap);
V_DrawFixedPatch((joyx+joyxoffs+3-turning/64)<<FRACBITS, (joyy+joyyoffs+1-stplyr->cmd.throwdir/64)<<FRACBITS, FRACUNIT, splitflags, joyknob, hudcolormap);
}
else
{
// joystick hole
V_DrawFill(joyx+joyxoffs+5, joyy+joyyoffs+4, 6, 6, splitflags|accent1);
// joystick top and back
V_DrawFill(joyx+joyxoffs+3-turning/80,
joyy+joyyoffs+2-stplyr->cmd.throwdir/80,
10, 10, splitflags|31);
V_DrawFill(joyx+joyxoffs+3-turning/64,
joyy+joyyoffs+1-stplyr->cmd.throwdir/64,
10, 10, splitflags|accent1);
}
}
else
{
if (cv_showinput.value == 2)
{
V_DrawFixedPatch((joyx+joyxoffs+3)<<FRACBITS, (joyy+joyyoffs+8)<<FRACBITS, FRACUNIT, splitflags, joyshadow, shadowcolormap);
V_DrawFixedPatch((joyx+joyxoffs+3)<<FRACBITS, (joyy+joyyoffs+1)<<FRACBITS, FRACUNIT, splitflags, joyknob, hudcolormap);
}
else
{
V_DrawFill(joyx+joyxoffs+3, joyy+joyyoffs+11, 10, 1, splitflags|accent2);
V_DrawFill(joyx+joyxoffs+3,
joyy+joyyoffs+1,
10, 10,splitflags|accent1);
}
}
}
else if (cv_showinput.value == 1)
{
if (!stplyr->cmd.turning) // no turn
target = 0;
else // turning of multiple strengths!
{
target = ((abs(stplyr->cmd.turning) - 1)/125)+1;
if (target > 4)
target = 4;
if (stplyr->cmd.turning < 0)
target = -target;
}
if (pn != target)
{
if (abs(pn - target) == 1)
pn = target;
else if (pn < target)
pn += 2;
else //if (pn > target)
pn -= 2;
}
if (pn < 0)
{
splitflags |= V_FLIP; // right turn
x -= FRACUNIT;
}
target = abs(pn);
if (target > 4)
target = 4;
if (!K_GetHudColor())
V_DrawFixedPatch(x, y, FRACUNIT, splitflags, kp_inputwheel[target], NULL);
else
{
UINT8 *colormap;
colormap = R_GetTranslationColormap(0, K_GetHudColor(), GTC_CACHE);
V_DrawFixedPatch(x, y, FRACUNIT, splitflags, kp_inputwheel[target], colormap);
}
}
}
static void K_drawChallengerScreen(void)
{
// This is an insanely complicated animation.
static UINT8 anim[52] = {
0,0,1,1,2,2,3,3,4,4,5,5,6,6,7,7,8,8,9,9,10,10,11,11,12,12,13,13, // frame 1-14, 2 tics: HERE COMES A NEW slides in
14,14,14,14,14,14, // frame 15, 6 tics: pause on the W
15,16,17,18, // frame 16-19, 1 tic: CHALLENGER approaches screen
19,20,19,20,19,20,19,20,19,20, // frame 20-21, 1 tic, 5 alternating: all text vibrates from impact
21,22,23,24 // frame 22-25, 1 tic: CHALLENGER turns gold
};
const UINT8 offset = min(52-1, (3*TICRATE)-mapreset);
V_DrawFadeScreen(0xFF00, 16); // Fade out
V_DrawScaledPatch(0, 0, 0, kp_challenger[anim[offset]]);
}
static void K_drawLapStartAnim(void)
{
if (!cv_showlapemblem.value)
return;
// This is an EVEN MORE insanely complicated animation.
const UINT8 t = stplyr->karthud[khud_lapanimation];
const UINT8 progress = 80 - t;
const UINT8 tOld = t + 1;
const UINT8 progressOld = 80 - tOld;
const tic_t leveltimeOld = leveltime - 1;
UINT8 *colormap = R_GetTranslationColormap(TC_DEFAULT, K_GetHudColor(), GTC_CACHE);
fixed_t interpx, interpy, newval, oldval;
newval = (BASEVIDWIDTH/2 + (32 * max(0, t - 76))) * FRACUNIT;
oldval = (BASEVIDWIDTH/2 + (32 * max(0, tOld - 76))) * FRACUNIT;
interpx = R_InterpolateFixed(oldval, newval);
newval = (48 - (32 * max(0, progress - 76))) * FRACUNIT;
oldval = (48 - (32 * max(0, progressOld - 76))) * FRACUNIT;
interpy = R_InterpolateFixed(oldval, newval);
V_DrawFixedPatch(
interpx, interpy,
FRACUNIT, V_SNAPTOTOP|V_HUDTRANS,
(modeattacking ? kp_lapanim_emblem[1] : kp_lapanim_emblem[0]), colormap);
if (stplyr->karthud[khud_laphand] >= 1 && stplyr->karthud[khud_laphand] <= 3)
{
newval = (4 - abs((signed)((leveltime % 8) - 4))) * FRACUNIT;
oldval = (4 - abs((signed)((leveltimeOld % 8) - 4))) * FRACUNIT;
interpy += R_InterpolateFixed(oldval, newval);
V_DrawFixedPatch(
interpx, interpy,
FRACUNIT, V_SNAPTOTOP|V_HUDTRANS,
kp_lapanim_hand[stplyr->karthud[khud_laphand]-1], NULL);
}
if (stplyr->laps == (UINT8)(numlaps))
{
newval = (62 - (32 * max(0, progress - 76))) * FRACUNIT;
oldval = (62 - (32 * max(0, progressOld - 76))) * FRACUNIT;
interpx = R_InterpolateFixed(oldval, newval);
V_DrawFixedPatch(
interpx, // 27
30*FRACUNIT, // 24
FRACUNIT, V_SNAPTOTOP|V_HUDTRANS,
kp_lapanim_final[min(progress/2, 10)], NULL);
if (progress/2-12 >= 0)
{
newval = (188 + (32 * max(0, progress - 76))) * FRACUNIT;
oldval = (188 + (32 * max(0, progressOld - 76))) * FRACUNIT;
interpx = R_InterpolateFixed(oldval, newval);
V_DrawFixedPatch(
interpx, // 194
30*FRACUNIT, // 24
FRACUNIT, V_SNAPTOTOP|V_HUDTRANS,
kp_lapanim_lap[min(progress/2-12, 6)], NULL);
}
}
else
{
newval = (82 - (32 * max(0, progress - 76))) * FRACUNIT;
oldval = (82 - (32 * max(0, progressOld - 76))) * FRACUNIT;
interpx = R_InterpolateFixed(oldval, newval);
V_DrawFixedPatch(
interpx, // 61
30*FRACUNIT, // 24
FRACUNIT, V_SNAPTOTOP|V_HUDTRANS,
kp_lapanim_lap[min(progress/2, 6)], NULL);
if (progress/2-8 >= 0)
{
newval = (188 + (32 * max(0, progress - 76))) * FRACUNIT;
oldval = (188 + (32 * max(0, progressOld - 76))) * FRACUNIT;
interpx = R_InterpolateFixed(oldval, newval);
V_DrawFixedPatch(
interpx, // 194
30*FRACUNIT, // 24
FRACUNIT, V_SNAPTOTOP|V_HUDTRANS,
kp_lapanim_number[(((UINT32)stplyr->laps) / 10)][min(progress/2-8, 2)], NULL);
if (progress/2-10 >= 0)
{
newval = (208 + (32 * max(0, progress - 76))) * FRACUNIT;
oldval = (208 + (32 * max(0, progressOld - 76))) * FRACUNIT;
interpx = R_InterpolateFixed(oldval, newval);
V_DrawFixedPatch(
interpx, // 221
30*FRACUNIT, // 24
FRACUNIT, V_SNAPTOTOP|V_HUDTRANS,
kp_lapanim_number[(((UINT32)stplyr->laps) % 10)][min(progress/2-10, 2)], NULL);
}
}
}
}
void K_drawKartFreePlay(void)
{
// Doesn't support splitscreens higher than 2 for real estate reasons.
if (!LUA_HudEnabled(hud_freeplay))
return;
if (modeattacking || grandprixinfo.gp || bossinfo.boss || stplyr->spectator)
return;
if (!cv_showfreeplay.value)
return;
if (lt_exitticker < TICRATE/2)
return;
if (((leveltime-lt_endtime) % TICRATE) < TICRATE/2)
return;
V_DrawKartString((BASEVIDWIDTH - (LAPS_X+1)) - (12*9), // mirror the laps thingy
LAPS_Y+3, V_HUDTRANS|V_SNAPTOBOTTOM|V_SNAPTORIGHT|V_SPLITSCREEN, "FREE PLAY");
}
static void
Draw_party_ping (int ss, INT32 snap)
{
HU_drawMiniPing(0, 0, playerpingtable[displayplayers[ss]], V_HUDTRANS|V_SPLITSCREEN|V_SNAPTOTOP|snap);
}
static void
K_drawMiniPing (void)
{
UINT32 f = V_SNAPTORIGHT;
UINT8 i;
if (!cv_showping.value)
{
return;
}
for (i = 0; i <= r_splitscreen; i++)
{
if (stplyr == &players[displayplayers[i]])
{
if (r_splitscreen > 1 && !(i & 1))
{
f = V_SNAPTOLEFT;
}
Draw_party_ping(i, f);
break;
}
}
}
static patch_t *K_GetSmallStaticCachedItemPatch(kartitems_t item)
{
UINT8 offset;
item = K_ItemResultToType(item);
switch (item)
{
case KITEM_INVINCIBILITY:
offset = 7;
break;
case KITEM_BANANA:
offset = 4;
break;
case KITEM_ORBINAUT:
offset = 4;
break;
case KITEM_JAWZ:
offset = 2;
break;
case KITEM_SNEAKER:
offset = 3;
break;
default:
offset = 1;
}
return K_GetCachedItemPatch(item, offset);
}
static void K_drawDistributionDebugger(void)
{
UINT8 useodds = 0;
UINT8 pingame = 0, bestbumper = 0;
UINT32 pdis = 0;
INT32 i;
INT32 item;
INT32 x = -9, y = -9;
boolean dontforcespb = false;
boolean spbrush = false;
//if (stplyr != &players[displayplayers[0]]) // only for p1
//return;
// The only code duplication from the Kart, just to avoid the actual item function from calculating pingame twice
for (i = 0; i < MAXPLAYERS; i++)
{
if (!playeringame[i] || players[i].spectator)
continue;
pingame++;
if (players[i].exiting)
dontforcespb = true;
if (players[i].bumper > bestbumper)
bestbumper = players[i].bumper;
}
if (!K_UsingLegacyCheckpoints())
{
// lovely double loop......
for (i = 0; i < MAXPLAYERS; i++)
{
if (playeringame[i] && !players[i].spectator
&& players[i].position == 1)
{
// This player is first! Yay!
pdis = stplyr->distancetofinish - players[i].distancetofinish;
break;
}
}
}
else
{
// Pain and fucking suffering.
SINT8 sortedPlayers[MAXPLAYERS];
UINT8 sortLength = 0;
memset(sortedPlayers, -1, sizeof(sortedPlayers));
if (stplyr->mo != NULL && P_MobjWasRemoved(stplyr->mo) == false)
{
// Sort all of the players ahead of you.
// Then tally up their distances in a conga line.
// This will create a much more consistent item
// distance algorithm than the "spider web" thing
// that it was doing before.
// Add yourself to the list.
// You'll always be the end of the list,
// so we can also calculate the length here.
sortedPlayers[ stplyr->position - 1 ] = stplyr - players;
sortLength = stplyr->position;
// Will only need to do this if there's goint to be
// more than yourself in the list.
if (sortLength > 1)
{
SINT8 firstIndex = -1;
SINT8 secondIndex = -1;
INT32 startFrom = INT32_MAX;
// Add all of the other players.
for (i = 0; i < MAXPLAYERS; i++)
{
INT32 pos = INT32_MAX;
if (!playeringame[i] || players[i].spectator)
{
continue;
}
if (players[i].mo == NULL || P_MobjWasRemoved(players[i].mo) == true)
{
continue;
}
pos = players[i].position;
if (pos <= 0 || pos > MAXPLAYERS)
{
// Invalid position.
continue;
}
if (pos >= stplyr->position)
{
// Tied / behind us.
// Also handles ourselves, obviously.
continue;
}
// Ties are done with port priority, if there are any.
if (sortedPlayers[ pos - 1 ] == -1)
{
sortedPlayers[ pos - 1 ] = i;
}
}
// The chance of this list having gaps is improbable,
// but not impossible. So we need to spend some extra time
// to prevent the gaps from mattering.
for (i = 0; i < sortLength-1; i++)
{
if (sortedPlayers[i] >= 0 && sortedPlayers[i] < MAXPLAYERS)
{
// First valid index in the list found.
firstIndex = sortedPlayers[i];
// Start the next loop after this player.
startFrom = i + 1;
break;
}
}
if (firstIndex >= 0 && firstIndex < MAXPLAYERS
&& startFrom < sortLength)
{
// First index is valid, so we can
// start comparing the players.
player_t *firstPlayer = NULL;
player_t *secondPlayer = NULL;
for (i = startFrom; i < sortLength; i++)
{
if (sortedPlayers[i] >= 0 && sortedPlayers[i] < MAXPLAYERS)
{
secondIndex = sortedPlayers[i];
firstPlayer = &players[firstIndex];
secondPlayer = &players[secondIndex];
// Add the distance to the player behind you.
pdis += P_AproxDistance(P_AproxDistance(
firstPlayer->mo->x - secondPlayer->mo->x,
firstPlayer->mo->y - secondPlayer->mo->y),
firstPlayer->mo->z - secondPlayer->mo->z) / FRACUNIT;
// Advance to next index.
firstIndex = secondIndex;
}
}
}
}
}
}
if (spbplace != -1 && stplyr->position == spbplace+1)
{
// SPB Rush Mode: It's 2nd place's job to catch-up items and make 1st place's job hell
if (!(K_UsingLegacyCheckpoints()))
pdis = (3 * pdis) / 2;
spbrush = true;
}
pdis = K_ScaleItemDistance(pdis, pingame, spbrush);
if (stplyr->bot && stplyr->botvars.rival)
{
// Rival has better odds :)
pdis = (15 * pdis) / 14;
}
if (K_UsingLegacyCheckpoints())
useodds = K_FindLegacyUseodds(stplyr, 0, pingame, bestbumper, spbrush, dontforcespb);
else
useodds = K_FindUseodds(stplyr, 0, pdis, bestbumper, spbrush);
if (pingame == 1)
{
if (stplyr->itemroulette && (stplyr->cmd.buttons & BT_ATTACK) && cv_superring.value && (K_RingsActive() == true))
V_DrawScaledPatch(x, y, V_SPLITSCREEN|V_HUDTRANS|V_SNAPTOTOP, K_GetSmallStaticCachedItemPatch(KITEM_SUPERRING));
else
V_DrawScaledPatch(x, y, V_SPLITSCREEN|V_HUDTRANS|V_SNAPTOTOP, K_GetSmallStaticCachedItemPatch(KITEM_SNEAKER));
V_DrawThinString(x+11, y+31, V_SPLITSCREEN|V_HUDTRANS|V_SNAPTOTOP, va("%d", 200));
}
else if (useodds == 69)
{
V_DrawScaledPatch(x, y, V_SPLITSCREEN|V_HUDTRANS|V_SNAPTOTOP, K_GetSmallStaticCachedItemPatch(KITEM_SPB));
V_DrawThinString(x+11, y+31, V_SPLITSCREEN|V_HUDTRANS|V_SNAPTOTOP, va("%d", 200));
}
else
{
for (item = 1; item < NUMKARTRESULTS; item++)
{
INT32 itemodds;
INT32 amount;
if (K_UsingLegacyCheckpoints())
itemodds = K_KartGetLegacyItemOdds(useodds, item, 0, spbrush);
else
itemodds = K_KartGetItemOdds(
useodds, item,
stplyr->distancetofinish,
0,
spbrush, stplyr->bot, (stplyr->bot && stplyr->botvars.rival)
);
if (itemodds <= 0)
continue;
V_DrawScaledPatch(x, y, V_SPLITSCREEN|V_HUDTRANS|V_SNAPTOTOP, K_GetSmallStaticCachedItemPatch(item));
V_DrawThinString(x+11, y+31, V_SPLITSCREEN|V_HUDTRANS|V_SNAPTOTOP, va("%d", itemodds));
// Display amount for multi-items
amount = K_ItemResultToAmount(item);
if (amount > 1)
{
V_DrawString(x+24, y+31, V_SPLITSCREEN|V_ALLOWLOWERCASE|V_HUDTRANS|V_SNAPTOTOP, va("x%d", amount));
}
x += 32;
if (x >= 297)
{
x = -9;
y += 32;
}
}
}
if (pingame == 1)
V_DrawString(0, 0, V_SPLITSCREEN|V_HUDTRANS|V_SNAPTOTOP, "TA MODE");
else if (useodds == 69)
V_DrawString(0, 0, V_SPLITSCREEN|V_HUDTRANS|V_SNAPTOTOP, "FORCED SPB");
else
V_DrawString(0, 0, V_SPLITSCREEN|V_HUDTRANS|V_SNAPTOTOP, va("USEODDS %d", useodds));
V_DrawString(150, 0, V_SPLITSCREEN|V_HUDTRANS|V_SNAPTOTOP, va("PDIS %d", pdis));
if (K_UsingLegacyCheckpoints())
V_DrawSmallString(70, 0, V_SPLITSCREEN|V_HUDTRANS|V_SNAPTOTOP, "Legacy Distance Mode");
}
static void K_drawCheckpointDebugger(void)
{
if (stplyr != &players[displayplayers[0]]) // only for p1
return;
if (stplyr->starpostnum >= K_CheckpointThreshold(true))
V_DrawString(8, 184, 0, va("Checkpoint: %d / %d (Can finish)", stplyr->starpostnum, numstarposts));
else if (K_CheckpointThreshold(false) != numstarposts)
V_DrawString(8, 184, 0, va("Checkpoint: %d / %d (Skip: %d)", stplyr->starpostnum, numstarposts, K_CheckpointThreshold(false) + stplyr->starpostnum));
else
V_DrawString(8, 184, 0, va("Checkpoint: %d / %d", stplyr->starpostnum, numstarposts));
if (K_UsingLegacyCheckpoints())
V_DrawString(8, 192, 0, va("Waypoint dist: Prev %d, Next %d", stplyr->prevcheck, stplyr->nextcheck));
}
static void K_DrawWaypointDebugger(void)
{
if (cv_kartdebugwaypoints.value == 0)
return;
if (stplyr != &players[displayplayers[0]]) // only for p1
return;
if (stplyr->bigwaypointgap)
{
V_DrawString(8, 146, 0, va("Auto Respawn Timer: %d", stplyr->bigwaypointgap));
}
V_DrawString(8, 156, 0, va("Current Waypoint ID: %d", K_GetWaypointID(stplyr->currentwaypoint)));
V_DrawString(8, 166, 0, va("Next Waypoint ID: %d", K_GetWaypointID(stplyr->nextwaypoint)));
V_DrawString(8, 176, 0, va("Finishline Distance: %d", stplyr->distancetofinish));
}
static void K_DrawBotDebugger(void)
{
if (!cv_kartdebugbot.value || !stplyr->bot)
return;
if (stplyrnum != 0) // only for p1
return;
INT32 vflags = V_6WIDTHSPACE|V_ALLOWLOWERCASE;
static const char *driftstates[] = {
[DRIFTSTATE_AUTO] = "Auto",
[DRIFTSTATE_STARTING] = "Starting",
[DRIFTSTATE_ACTIVE] = "Active",
[DRIFTSTATE_ENDING] = "Ending",
};
V_DrawThinString(24, 100, vflags, va("Drift state: %s", driftstates[stplyr->botvars.driftstate]));
V_DrawThinString(24, 108, vflags|(stplyr->botvars.driftlockout ? V_ORANGEMAP : 0), va("Drift lockout: %d", stplyr->botvars.driftlockout));
V_DrawThinString(24, 116, vflags, va("Drift turn: %d", stplyr->botvars.driftturn));
V_DrawThinString(24, 124, vflags, va("Drift timer: %d", stplyr->botvars.drifttime));
}
void K_drawKartHUD(void)
{
boolean islonesome = false;
boolean battlefullscreen = false;
UINT8 viewnum = R_GetViewNumber();
boolean freecam = camera[viewnum].freecam; //disable some hud elements w/ freecam
UINT8 i;
// Define the X and Y for each drawn object
// This is handled by console/menu values
K_initKartHUD();
// Draw that fun first person HUD! Drawn ASAP so it looks more "real".
for (i = 0; i <= r_splitscreen; i++)
{
if (stplyr == &players[displayplayers[i]] && !camera[i].chase && !freecam)
K_drawKartFirstPerson();
}
// Draw full screen stuff that turns off the rest of the HUD
if (mapreset && stplyr == &players[displayplayers[0]])
{
K_drawChallengerScreen();
return;
}
battlefullscreen = ((gametyperules & (GTR_BUMPERS|GTR_KARMA)) == (GTR_BUMPERS|GTR_KARMA)
&& (stplyr->exiting
|| (stplyr->bumper <= 0
&& stplyr->karmadelay > 0
&& !(stplyr->pflags & PF_ELIMINATED)
&& comeback == true
&& stplyr->playerstate == PST_LIVE)));
if (!demo.title && (!battlefullscreen || r_splitscreen))
{
// Draw the CHECK indicator before the other items, so it's overlapped by everything else
if (LUA_HudEnabled(hud_check)) // delete lua when?
if (cv_kartcheck.value && !splitscreen && !players[displayplayers[0]].exiting && !freecam)
K_drawKartPlayerCheck();
// nametags
if (LUA_HudEnabled(hud_names))
K_drawKartNameTags();
// Draw WANTED status
if (gametype == GT_BATTLE)
{
if (LUA_HudEnabled(hud_wanted))
K_drawKartWanted();
}
if (cv_kartminimap.value)
{
if (LUA_HudEnabled(hud_minimap))
K_drawKartMinimap();
}
}
if (battlefullscreen && !freecam)
{
if (LUA_HudEnabled(hud_battlefullscreen))
K_drawBattleFullscreen();
return;
}
// Draw the item window
if (LUA_HudEnabled(hud_item) && !freecam)
K_drawKartItem();
// If not splitscreen, draw...
if (!r_splitscreen && !demo.title)
{
// Draw the timestamp
if (LUA_HudEnabled(hud_time))
K_drawKartTimestamp(stplyr->realtime, TIME_X, TIME_Y, gamemap, 0);
islonesome = K_drawKartPositionFaces();
}
if (!stplyr->spectator && !freecam) // Bottom of the screen elements, don't need in spectate mode
{
if (demo.title) // Draw title logo instead in demo.titles
{
INT32 x = (BASEVIDWIDTH - 32), y = 128, snapflags = V_SNAPTOBOTTOM|V_SNAPTORIGHT;
if (r_splitscreen == 3)
{
x = BASEVIDWIDTH/2 + 10;
y = BASEVIDHEIGHT/2 - 30;
snapflags = 0;
}
V_DrawTinyScaledPatch(x-54, y, snapflags|V_SLIDEIN, W_CachePatchLongName("TTKBANNR", PU_CACHE));
V_DrawTinyScaledPatch(x-54, y+25, snapflags|V_SLIDEIN, W_CachePatchLongName("TTKART", PU_CACHE));
}
else
{
if (LUA_HudEnabled(hud_position))
{
if (bossinfo.boss)
{
K_drawBossHealthBar();
}
else if (gametype == GT_RACE) // Race-only elements (not currently gametyperuleable)
{
if (!islonesome)
{
// Draw the numerical position
K_DrawKartPositionNum(stplyr->position);
}
}
}
if (LUA_HudEnabled(hud_gametypeinfo))
{
if (gametyperules & GTR_CIRCUIT)
{
K_drawKartLaps();
}
else if (gametyperules & GTR_BUMPERS)
{
K_drawKartBumpersOrKarma();
}
}
// Draw the speedometer and/or accessibility icons
if (cv_kartspeedometer.value && !r_splitscreen && (LUA_HudEnabled(hud_speedometer)))
{
K_drawKartSpeedometer();
}
else
{
K_drawKartAccessibilityIcons((cv_newspeedometer.value == 0) ? 50 : 0);
}
if (LUA_HudEnabled(hud_rings) && K_RingsActive() == true)
{
K_drawRingMeter();
}
if (cv_showinput.value > 0)
{
// Draw the input UI
if (LUA_HudEnabled(hud_position))
K_drawInput();
}
}
}
// Draw the countdowns after everything else.
if (!(gametyperules & GTR_FREEROAM) && starttime != introtime
&& leveltime >= introtime
&& leveltime < starttime+TICRATE)
{
K_drawKartStartCountdown();
}
else if (racecountdown && (!r_splitscreen || !stplyr->exiting))
{
char *countstr = va("%d", racecountdown/TICRATE);
if (r_splitscreen > 1)
V_DrawCenteredString(BASEVIDWIDTH/4, LAPS_Y+1, V_SPLITSCREEN, countstr);
else
{
INT32 karlen = strlen(countstr)*6; // half of 12
V_DrawKartString((BASEVIDWIDTH/2)-karlen, LAPS_Y+3, V_SPLITSCREEN, countstr);
}
}
// Race overlays
if ((gametyperules & GTR_CIRCUIT) && !freecam)
{
if (stplyr->exiting)
K_drawKartFinish();
else if (stplyr->karthud[khud_lapanimation] && !r_splitscreen)
K_drawLapStartAnim();
}
if (modeattacking || freecam) // everything after here is MP and debug only
return;
if (gametype == GT_BATTLE && !r_splitscreen && (stplyr->karthud[khud_yougotem] % 2)) // * YOU GOT EM *
V_DrawScaledPatch(BASEVIDWIDTH/2 - (SHORT(kp_yougotem->width)/2), 32, V_HUDTRANS, kp_yougotem);
// Draw FREE PLAY.
if (islonesome)
K_drawKartFreePlay();
if (r_splitscreen == 0 && (stplyr->pflags & PF_WRONGWAY) && ((leveltime / 8) & 1) && !stplyr->exiting)
{
V_DrawCenteredString(BASEVIDWIDTH>>1, 176, V_REDMAP|V_SNAPTOBOTTOM, "WRONG WAY");
}
if ((netgame || cv_mindelay.value) && r_splitscreen && Playing())
{
K_drawMiniPing();
}
if (cv_kartdebugdistribution.value)
K_drawDistributionDebugger();
if (cv_kartdebugcheckpoint.value)
K_drawCheckpointDebugger();
if (cv_kartdebugnodes.value)
{
UINT8 p;
for (p = 0; p < MAXPLAYERS; p++)
V_DrawString(8, 64+(8*p), V_YELLOWMAP, va("%d - %d (%dl)", p, playernode[p], players[p].cmd.latency));
}
if (cv_kartdebugcolorize.value && stplyr->mo && stplyr->mo->skin)
{
INT32 x = 0, y = 0;
UINT16 c;
for (c = 0; c < numskincolors; c++)
{
if (skincolors[c].accessible)
{
UINT8 *cm = R_GetTranslationColormap(TC_RAINBOW, c, GTC_CACHE);
V_DrawFixedPatch(x<<FRACBITS, y<<FRACBITS, FRACUNIT>>1, 0, faceprefix[stplyr->skin][FACE_WANTED], cm);
x += 16;
if (x > BASEVIDWIDTH-16)
{
x = 0;
y += 16;
}
}
}
}
K_DrawWaypointDebugger();
K_DrawBotDebugger();
K_DrawDirectorDebugger();
}
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