gzdoom/src/r_data/sprites.cpp
2014-07-31 00:59:56 +02:00

1003 lines
25 KiB
C++

#include "doomtype.h"
#include "w_wad.h"
#include "i_system.h"
#include "s_sound.h"
#include "c_console.h"
#include "d_player.h"
#include "d_netinf.h"
#include "gi.h"
#include "colormatcher.h"
#include "c_dispatch.h"
#include "r_defs.h"
#include "v_text.h"
#include "r_data/sprites.h"
#include "r_data/voxels.h"
#include "textures/textures.h"
void gl_InitModels();
// variables used to look up
// and range check thing_t sprites patches
TArray<spritedef_t> sprites;
TArray<spriteframe_t> SpriteFrames;
DWORD NumStdSprites; // The first x sprites that don't belong to skins.
struct spriteframewithrotate : public spriteframe_t
{
int rotate;
}
sprtemp[MAX_SPRITE_FRAMES];
int maxframe;
char* spritename;
// [RH] skin globals
FPlayerSkin *skins;
size_t numskins;
BYTE OtherGameSkinRemap[256];
PalEntry OtherGameSkinPalette[256];
//
// R_InstallSpriteLump
// Local function for R_InitSprites.
//
// [RH] Removed checks for coexistance of rotation 0 with other
// rotations and made it look more like BOOM's version.
//
static bool R_InstallSpriteLump (FTextureID lump, unsigned frame, char rot, bool flipped)
{
unsigned rotation;
if (rot >= '0' && rot <= '9')
{
rotation = rot - '0';
}
else if (rot >= 'A')
{
rotation = rot - 'A' + 10;
}
else
{
rotation = 17;
}
if (frame >= MAX_SPRITE_FRAMES || rotation > 16)
{
Printf (TEXTCOLOR_RED"R_InstallSpriteLump: Bad frame characters in lump %s\n", TexMan[lump]->Name.GetChars());
return false;
}
if ((int)frame > maxframe)
maxframe = frame;
if (rotation == 0)
{
// the lump should be used for all rotations
// false=0, true=1, but array initialised to -1
// allows doom to have a "no value set yet" boolean value!
int r;
for (r = 14; r >= 0; r -= 2)
{
if (!sprtemp[frame].Texture[r].isValid())
{
sprtemp[frame].Texture[r] = lump;
if (flipped)
{
sprtemp[frame].Flip |= 1 << r;
}
sprtemp[frame].rotate = false;
}
}
}
else
{
if (rotation <= 8)
{
rotation = (rotation - 1) * 2;
}
else
{
rotation = (rotation - 9) * 2 + 1;
}
if (!sprtemp[frame].Texture[rotation].isValid())
{
// the lump is only used for one rotation
sprtemp[frame].Texture[rotation] = lump;
if (flipped)
{
sprtemp[frame].Flip |= 1 << rotation;
}
sprtemp[frame].rotate = true;
}
}
return true;
}
// [RH] Seperated out of R_InitSpriteDefs()
static void R_InstallSprite (int num)
{
int frame;
int framestart;
int rot;
// int undefinedFix;
if (maxframe == -1)
{
sprites[num].numframes = 0;
return;
}
maxframe++;
// [RH] If any frames are undefined, but there are some defined frames, map
// them to the first defined frame. This is a fix for Doom Raider, which actually
// worked with ZDoom 2.0.47, because of a bug here. It does not define frames A,
// B, or C for the sprite PSBG, but because I had sprtemp[].rotate defined as a
// bool, this code never detected that it was not actually present. After switching
// to the unified texture system, this caused it to crash while loading the wad.
// [RH] Let undefined frames actually be blank because LWM uses this in at least
// one of her wads.
// for (frame = 0; frame < maxframe && sprtemp[frame].rotate == -1; ++frame)
// { }
//
// undefinedFix = frame;
for (frame = 0; frame < maxframe; ++frame)
{
switch (sprtemp[frame].rotate)
{
case -1:
// no rotations were found for that frame at all
//I_FatalError ("R_InstallSprite: No patches found for %s frame %c", sprites[num].name, frame+'A');
break;
case 0:
// only the first rotation is needed
for (rot = 1; rot < 16; ++rot)
{
sprtemp[frame].Texture[rot] = sprtemp[frame].Texture[0];
}
// If the frame is flipped, they all should be
if (sprtemp[frame].Flip & 1)
{
sprtemp[frame].Flip = 0xFFFF;
}
break;
case 1:
// must have all 8 frame pairs
for (rot = 0; rot < 8; ++rot)
{
if (!sprtemp[frame].Texture[rot*2+1].isValid())
{
sprtemp[frame].Texture[rot*2+1] = sprtemp[frame].Texture[rot*2];
if (sprtemp[frame].Flip & (1 << (rot*2)))
{
sprtemp[frame].Flip |= 1 << (rot*2+1);
}
}
if (!sprtemp[frame].Texture[rot*2].isValid())
{
sprtemp[frame].Texture[rot*2] = sprtemp[frame].Texture[rot*2+1];
if (sprtemp[frame].Flip & (1 << (rot*2+1)))
{
sprtemp[frame].Flip |= 1 << (rot*2);
}
}
}
for (rot = 0; rot < 16; ++rot)
{
if (!sprtemp[frame].Texture[rot].isValid())
I_FatalError ("R_InstallSprite: Sprite %s frame %c is missing rotations",
sprites[num].name, frame+'A');
}
break;
}
}
for (frame = 0; frame < maxframe; ++frame)
{
if (sprtemp[frame].rotate == -1)
{
memset (&sprtemp[frame].Texture, 0, sizeof(sprtemp[0].Texture));
sprtemp[frame].Flip = 0;
sprtemp[frame].rotate = 0;
}
}
// allocate space for the frames present and copy sprtemp to it
sprites[num].numframes = maxframe;
sprites[num].spriteframes = WORD(framestart = SpriteFrames.Reserve (maxframe));
for (frame = 0; frame < maxframe; ++frame)
{
memcpy (SpriteFrames[framestart+frame].Texture, sprtemp[frame].Texture, sizeof(sprtemp[frame].Texture));
SpriteFrames[framestart+frame].Flip = sprtemp[frame].Flip;
SpriteFrames[framestart+frame].Voxel = sprtemp[frame].Voxel;
}
// Let the textures know about the rotations
for (frame = 0; frame < maxframe; ++frame)
{
if (sprtemp[frame].rotate == 1)
{
for (int rot = 0; rot < 16; ++rot)
{
TexMan[sprtemp[frame].Texture[rot]]->Rotations = framestart + frame;
}
}
}
}
//
// R_InitSpriteDefs
// Pass a null terminated list of sprite names
// (4 chars exactly) to be used.
// Builds the sprite rotation matrices to account
// for horizontally flipped sprites.
// Will report an error if the lumps are inconsistant.
// Only called at startup.
//
// Sprite lump names are 4 characters for the actor,
// a letter for the frame, and a number for the rotation.
// A sprite that is flippable will have an additional
// letter/number appended.
// The rotation character can be 0 to signify no rotations.
//
#define TEX_DWNAME(tex) MAKE_ID(tex->Name[0], tex->Name[1], tex->Name[2], tex->Name[3])
void R_InitSpriteDefs ()
{
struct Hasher
{
int Head, Next;
} *hashes;
struct VHasher
{
int Head, Next, Name, Spin;
char Frame;
} *vhashes;
unsigned int i, j, smax, vmax;
DWORD intname;
// Create a hash table to speed up the process
smax = TexMan.NumTextures();
hashes = new Hasher[smax];
clearbuf(hashes, sizeof(Hasher)*smax/4, -1);
for (i = 0; i < smax; ++i)
{
FTexture *tex = TexMan.ByIndex(i);
if (tex->UseType == FTexture::TEX_Sprite && strlen(tex->Name) >= 6)
{
size_t bucket = TEX_DWNAME(tex) % smax;
hashes[i].Next = hashes[bucket].Head;
hashes[bucket].Head = i;
}
}
// Repeat, for voxels
vmax = Wads.GetNumLumps();
vhashes = new VHasher[vmax];
clearbuf(vhashes, sizeof(VHasher)*vmax/4, -1);
for (i = 0; i < vmax; ++i)
{
if (Wads.GetLumpNamespace(i) == ns_voxels)
{
char name[9];
size_t namelen;
int spin;
int sign;
Wads.GetLumpName(name, i);
name[8] = 0;
namelen = strlen(name);
if (namelen < 4)
{ // name is too short
continue;
}
if (name[4] != '\0' && name[4] != ' ' && (name[4] < 'A' || name[4] >= 'A' + MAX_SPRITE_FRAMES))
{ // frame char is invalid
continue;
}
spin = 0;
sign = 2; // 2 to convert from deg/halfsec to deg/sec
j = 5;
if (j < namelen && name[j] == '-')
{ // a minus sign is okay, but only before any digits
j++;
sign = -2;
}
for (; j < namelen; ++j)
{ // the remainder to the end of the name must be digits
if (name[j] >= '0' && name[j] <= '9')
{
spin = spin * 10 + name[j] - '0';
}
else
{
break;
}
}
if (j < namelen)
{ // the spin part is invalid
continue;
}
memcpy(&vhashes[i].Name, name, 4);
vhashes[i].Frame = name[4];
vhashes[i].Spin = spin * sign;
size_t bucket = vhashes[i].Name % vmax;
vhashes[i].Next = vhashes[bucket].Head;
vhashes[bucket].Head = i;
}
}
// scan all the lump names for each of the names, noting the highest frame letter.
for (i = 0; i < sprites.Size(); ++i)
{
memset (sprtemp, 0xFF, sizeof(sprtemp));
for (j = 0; j < MAX_SPRITE_FRAMES; ++j)
{
sprtemp[j].Flip = 0;
sprtemp[j].Voxel = NULL;
}
maxframe = -1;
intname = sprites[i].dwName;
// scan the lumps, filling in the frames for whatever is found
int hash = hashes[intname % smax].Head;
while (hash != -1)
{
FTexture *tex = TexMan[hash];
if (TEX_DWNAME(tex) == intname)
{
bool res = R_InstallSpriteLump (FTextureID(hash), tex->Name[4] - 'A', tex->Name[5], false);
if (tex->Name[6] && res)
R_InstallSpriteLump (FTextureID(hash), tex->Name[6] - 'A', tex->Name[7], true);
}
hash = hashes[hash].Next;
}
// repeat, for voxels
hash = vhashes[intname % vmax].Head;
while (hash != -1)
{
VHasher *vh = &vhashes[hash];
if (vh->Name == (int)intname)
{
FVoxelDef *voxdef = R_LoadVoxelDef(hash, vh->Spin);
if (voxdef != NULL)
{
if (vh->Frame == ' ' || vh->Frame == '\0')
{ // voxel applies to every sprite frame
for (j = 0; j < MAX_SPRITE_FRAMES; ++j)
{
if (sprtemp[j].Voxel == NULL)
{
sprtemp[j].Voxel = voxdef;
}
}
maxframe = MAX_SPRITE_FRAMES-1;
}
else
{ // voxel applies to a specific frame
j = vh->Frame - 'A';
sprtemp[j].Voxel = voxdef;
maxframe = MAX<int>(maxframe, j);
}
}
}
hash = vh->Next;
}
R_InstallSprite ((int)i);
}
delete[] hashes;
delete[] vhashes;
}
//==========================================================================
//
// R_ExtendSpriteFrames
//
// Extends a sprite so that it can hold the desired frame.
//
//==========================================================================
static void R_ExtendSpriteFrames(spritedef_t &spr, int frame)
{
unsigned int i, newstart;
if (spr.numframes >= ++frame)
{ // The sprite already has enough frames, so do nothing.
return;
}
if (spr.numframes == 0 || (spr.spriteframes + spr.numframes == SpriteFrames.Size()))
{ // Sprite's frames are at the end of the array, or it has no frames
// at all, so we can tack the new frames directly on to the end
// of the SpriteFrames array.
newstart = SpriteFrames.Reserve(frame - spr.numframes);
if (spr.numframes == 0)
{
spr.spriteframes = WORD(newstart);
}
}
else
{ // We need to allocate space for all the sprite's frames and copy
// the existing ones over to the new space. The old space will be
// lost.
newstart = SpriteFrames.Reserve(frame);
for (i = 0; i < spr.numframes; ++i)
{
SpriteFrames[newstart + i] = SpriteFrames[spr.spriteframes + i];
}
spr.spriteframes = WORD(newstart);
newstart += i;
}
// Initialize all new frames to 0.
memset(&SpriteFrames[newstart], 0, sizeof(spriteframe_t)*(frame - spr.numframes));
spr.numframes = frame;
}
//==========================================================================
//
// VOX_AddVoxel
//
// Sets a voxel for a single sprite frame.
//
//==========================================================================
void VOX_AddVoxel(int sprnum, int frame, FVoxelDef *def)
{
R_ExtendSpriteFrames(sprites[sprnum], frame);
SpriteFrames[sprites[sprnum].spriteframes + frame].Voxel = def;
}
// [RH]
// R_InitSkins
// Reads in everything applicable to a skin. The skins should have already
// been counted and had their identifiers assigned to namespaces.
//
#define NUMSKINSOUNDS 17
static const char *skinsoundnames[NUMSKINSOUNDS][2] =
{ // The *painXXX sounds must be the first four
{ "dsplpain", "*pain100" },
{ "dsplpain", "*pain75" },
{ "dsplpain", "*pain50" },
{ "dsplpain", "*pain25" },
{ "dsplpain", "*poison" },
{ "dsoof", "*grunt" },
{ "dsoof", "*land" },
{ "dspldeth", "*death" },
{ "dspldeth", "*wimpydeath" },
{ "dspdiehi", "*xdeath" },
{ "dspdiehi", "*crazydeath" },
{ "dsnoway", "*usefail" },
{ "dsnoway", "*puzzfail" },
{ "dsslop", "*gibbed" },
{ "dsslop", "*splat" },
{ "dspunch", "*fist" },
{ "dsjump", "*jump" }
};
/*
static int STACK_ARGS skinsorter (const void *a, const void *b)
{
return stricmp (((FPlayerSkin *)a)->name, ((FPlayerSkin *)b)->name);
}
*/
void R_InitSkins (void)
{
FSoundID playersoundrefs[NUMSKINSOUNDS];
spritedef_t temp;
int sndlumps[NUMSKINSOUNDS];
char key[65];
DWORD intname, crouchname;
size_t i;
int j, k, base;
int lastlump;
int aliasid;
bool remove;
const PClass *basetype, *transtype;
key[sizeof(key)-1] = 0;
i = PlayerClasses.Size () - 1;
lastlump = 0;
for (j = 0; j < NUMSKINSOUNDS; ++j)
{
playersoundrefs[j] = skinsoundnames[j][1];
}
while ((base = Wads.FindLump ("S_SKIN", &lastlump, true)) != -1)
{
// The player sprite has 23 frames. This means that the S_SKIN
// marker needs a minimum of 23 lumps after it.
if (base >= Wads.GetNumLumps() - 23 || base == -1)
continue;
i++;
for (j = 0; j < NUMSKINSOUNDS; j++)
sndlumps[j] = -1;
skins[i].namespc = Wads.GetLumpNamespace (base);
FScanner sc(base);
intname = 0;
crouchname = 0;
remove = false;
basetype = NULL;
transtype = NULL;
// Data is stored as "key = data".
while (sc.GetString ())
{
strncpy (key, sc.String, sizeof(key)-1);
if (!sc.GetString() || sc.String[0] != '=')
{
Printf (PRINT_BOLD, "Bad format for skin %d: %s\n", (int)i, key);
break;
}
sc.GetString ();
if (0 == stricmp (key, "name"))
{
strncpy (skins[i].name, sc.String, 16);
for (j = 0; (size_t)j < i; j++)
{
if (stricmp (skins[i].name, skins[j].name) == 0)
{
mysnprintf (skins[i].name, countof(skins[i].name), "skin%d", (int)i);
Printf (PRINT_BOLD, "Skin %s duplicated as %s\n",
skins[j].name, skins[i].name);
break;
}
}
}
else if (0 == stricmp (key, "sprite"))
{
for (j = 3; j >= 0; j--)
sc.String[j] = toupper (sc.String[j]);
intname = *((DWORD *)sc.String);
}
else if (0 == stricmp (key, "crouchsprite"))
{
for (j = 3; j >= 0; j--)
sc.String[j] = toupper (sc.String[j]);
crouchname = *((DWORD *)sc.String);
}
else if (0 == stricmp (key, "face"))
{
for (j = 2; j >= 0; j--)
skins[i].face[j] = toupper (sc.String[j]);
skins[i].face[3] = '\0';
}
else if (0 == stricmp (key, "gender"))
{
skins[i].gender = D_GenderToInt (sc.String);
}
else if (0 == stricmp (key, "scale"))
{
skins[i].ScaleX = clamp<fixed_t> (FLOAT2FIXED(atof (sc.String)), 1, 256*FRACUNIT);
skins[i].ScaleY = skins[i].ScaleX;
}
else if (0 == stricmp (key, "game"))
{
if (gameinfo.gametype == GAME_Heretic)
basetype = PClass::FindClass (NAME_HereticPlayer);
else if (gameinfo.gametype == GAME_Strife)
basetype = PClass::FindClass (NAME_StrifePlayer);
else
basetype = PClass::FindClass (NAME_DoomPlayer);
transtype = basetype;
if (stricmp (sc.String, "heretic") == 0)
{
if (gameinfo.gametype & GAME_DoomChex)
{
transtype = PClass::FindClass (NAME_HereticPlayer);
skins[i].othergame = true;
}
else if (gameinfo.gametype != GAME_Heretic)
{
remove = true;
}
}
else if (stricmp (sc.String, "strife") == 0)
{
if (gameinfo.gametype != GAME_Strife)
{
remove = true;
}
}
else
{
if (gameinfo.gametype == GAME_Heretic)
{
transtype = PClass::FindClass (NAME_DoomPlayer);
skins[i].othergame = true;
}
else if (!(gameinfo.gametype & GAME_DoomChex))
{
remove = true;
}
}
if (remove)
break;
}
else if (0 == stricmp (key, "class"))
{ // [GRB] Define the skin for a specific player class
int pclass = D_PlayerClassToInt (sc.String);
if (pclass < 0)
{
remove = true;
break;
}
basetype = transtype = PlayerClasses[pclass].Type;
}
else if (key[0] == '*')
{ // Player sound replacment (ZDoom extension)
int lump = Wads.CheckNumForName (sc.String, skins[i].namespc);
if (lump == -1)
{
lump = Wads.CheckNumForFullName (sc.String, true, ns_sounds);
}
if (lump != -1)
{
if (stricmp (key, "*pain") == 0)
{ // Replace all pain sounds in one go
aliasid = S_AddPlayerSound (skins[i].name, skins[i].gender,
playersoundrefs[0], lump, true);
for (int l = 3; l > 0; --l)
{
S_AddPlayerSoundExisting (skins[i].name, skins[i].gender,
playersoundrefs[l], aliasid, true);
}
}
else
{
int sndref = S_FindSoundNoHash (key);
if (sndref != 0)
{
S_AddPlayerSound (skins[i].name, skins[i].gender, sndref, lump, true);
}
}
}
}
else
{
for (j = 0; j < NUMSKINSOUNDS; j++)
{
if (stricmp (key, skinsoundnames[j][0]) == 0)
{
sndlumps[j] = Wads.CheckNumForName (sc.String, skins[i].namespc);
if (sndlumps[j] == -1)
{ // Replacement not found, try finding it in the global namespace
sndlumps[j] = Wads.CheckNumForFullName (sc.String, true, ns_sounds);
}
}
}
//if (j == 8)
// Printf ("Funny info for skin %i: %s = %s\n", i, key, sc.String);
}
}
// [GRB] Assume Doom skin by default
if (!remove && basetype == NULL)
{
if (gameinfo.gametype & GAME_DoomChex)
{
basetype = transtype = PClass::FindClass (NAME_DoomPlayer);
}
else if (gameinfo.gametype == GAME_Heretic)
{
basetype = PClass::FindClass (NAME_HereticPlayer);
transtype = PClass::FindClass (NAME_DoomPlayer);
skins[i].othergame = true;
}
else
{
remove = true;
}
}
if (!remove)
{
skins[i].range0start = transtype->Meta.GetMetaInt (APMETA_ColorRange) & 0xff;
skins[i].range0end = transtype->Meta.GetMetaInt (APMETA_ColorRange) >> 8;
remove = true;
for (j = 0; j < (int)PlayerClasses.Size (); j++)
{
const PClass *type = PlayerClasses[j].Type;
if (type->IsDescendantOf (basetype) &&
GetDefaultByType (type)->SpawnState->sprite == GetDefaultByType (basetype)->SpawnState->sprite &&
type->Meta.GetMetaInt (APMETA_ColorRange) == basetype->Meta.GetMetaInt (APMETA_ColorRange))
{
PlayerClasses[j].Skins.Push ((int)i);
remove = false;
}
}
}
if (!remove)
{
if (skins[i].name[0] == 0)
mysnprintf (skins[i].name, countof(skins[i].name), "skin%d", (int)i);
// Now collect the sprite frames for this skin. If the sprite name was not
// specified, use whatever immediately follows the specifier lump.
if (intname == 0)
{
char name[9];
Wads.GetLumpName (name, base+1);
memcpy(&intname, name, 4);
}
int basens = Wads.GetLumpNamespace(base);
for(int spr = 0; spr<2; spr++)
{
memset (sprtemp, 0xFFFF, sizeof(sprtemp));
for (k = 0; k < MAX_SPRITE_FRAMES; ++k)
{
sprtemp[k].Flip = 0;
sprtemp[k].Voxel = NULL;
}
maxframe = -1;
if (spr == 1)
{
if (crouchname !=0 && crouchname != intname)
{
intname = crouchname;
}
else
{
skins[i].crouchsprite = -1;
break;
}
}
for (k = base + 1; Wads.GetLumpNamespace(k) == basens; k++)
{
char lname[9];
DWORD lnameint;
Wads.GetLumpName (lname, k);
memcpy(&lnameint, lname, 4);
if (lnameint == intname)
{
FTextureID picnum = TexMan.CreateTexture(k, FTexture::TEX_SkinSprite);
bool res = R_InstallSpriteLump (picnum, lname[4] - 'A', lname[5], false);
if (lname[6] && res)
R_InstallSpriteLump (picnum, lname[6] - 'A', lname[7], true);
}
}
if (spr == 0 && maxframe <= 0)
{
Printf (PRINT_BOLD, "Skin %s (#%d) has no frames. Removing.\n", skins[i].name, (int)i);
remove = true;
break;
}
Wads.GetLumpName (temp.name, base+1);
temp.name[4] = 0;
int sprno = (int)sprites.Push (temp);
if (spr==0) skins[i].sprite = sprno;
else skins[i].crouchsprite = sprno;
R_InstallSprite (sprno);
}
}
if (remove)
{
if (i < numskins-1)
memmove (&skins[i], &skins[i+1], sizeof(skins[0])*(numskins-i-1));
i--;
continue;
}
// Register any sounds this skin provides
aliasid = 0;
for (j = 0; j < NUMSKINSOUNDS; j++)
{
if (sndlumps[j] != -1)
{
if (j == 0 || sndlumps[j] != sndlumps[j-1])
{
aliasid = S_AddPlayerSound (skins[i].name, skins[i].gender,
playersoundrefs[j], sndlumps[j], true);
}
else
{
S_AddPlayerSoundExisting (skins[i].name, skins[i].gender,
playersoundrefs[j], aliasid, true);
}
}
}
// Make sure face prefix is a full 3 chars
if (skins[i].face[1] == 0 || skins[i].face[2] == 0)
{
skins[i].face[0] = 0;
}
}
if (numskins > PlayerClasses.Size ())
{ // The sound table may have changed, so rehash it.
S_HashSounds ();
S_ShrinkPlayerSoundLists ();
}
}
// [RH] Find a skin by name
int R_FindSkin (const char *name, int pclass)
{
if (stricmp ("base", name) == 0)
{
return pclass;
}
for (unsigned i = PlayerClasses.Size(); i < numskins; i++)
{
if (strnicmp (skins[i].name, name, 16) == 0)
{
if (PlayerClasses[pclass].CheckSkin (i))
return i;
else
return pclass;
}
}
return pclass;
}
// [RH] List the names of all installed skins
CCMD (skins)
{
int i;
for (i = PlayerClasses.Size ()-1; i < (int)numskins; i++)
Printf ("% 3d %s\n", i-PlayerClasses.Size ()+1, skins[i].name);
}
static void R_CreateSkinTranslation (const char *palname)
{
FMemLump lump = Wads.ReadLump (palname);
const BYTE *otherPal = (BYTE *)lump.GetMem();
for (int i = 0; i < 256; ++i)
{
OtherGameSkinRemap[i] = ColorMatcher.Pick (otherPal[0], otherPal[1], otherPal[2]);
OtherGameSkinPalette[i] = PalEntry(otherPal[0], otherPal[1], otherPal[2]);
otherPal += 3;
}
}
//
// R_InitSprites
// Called at program start.
//
void R_InitSprites ()
{
int lump, lastlump;
unsigned int i, j;
// [RH] Create a standard translation to map skins between Heretic and Doom
if (gameinfo.gametype == GAME_DoomChex)
{
R_CreateSkinTranslation ("SPALHTIC");
}
else
{
R_CreateSkinTranslation ("SPALDOOM");
}
// [RH] Count the number of skins.
numskins = PlayerClasses.Size ();
lastlump = 0;
while ((lump = Wads.FindLump ("S_SKIN", &lastlump, true)) != -1)
{
numskins++;
}
// [RH] Do some preliminary setup
if (skins != NULL) delete [] skins;
skins = new FPlayerSkin[numskins];
memset (skins, 0, sizeof(*skins) * numskins);
for (i = 0; i < numskins; i++)
{ // Assume Doom skin by default
const PClass *type = PlayerClasses[0].Type;
skins[i].range0start = type->Meta.GetMetaInt (APMETA_ColorRange) & 255;
skins[i].range0end = type->Meta.GetMetaInt (APMETA_ColorRange) >> 8;
skins[i].ScaleX = GetDefaultByType (type)->scaleX;
skins[i].ScaleY = GetDefaultByType (type)->scaleY;
}
R_InitSpriteDefs ();
R_InitVoxels(); // [RH] Parse VOXELDEF
NumStdSprites = sprites.Size();
R_InitSkins (); // [RH] Finish loading skin data
// [RH] Set up base skin
// [GRB] Each player class has its own base skin
for (i = 0; i < PlayerClasses.Size (); i++)
{
const PClass *basetype = PlayerClasses[i].Type;
const char *pclassface = basetype->Meta.GetMetaString (APMETA_Face);
strcpy (skins[i].name, "Base");
if (pclassface == NULL || strcmp(pclassface, "None") == 0)
{
skins[i].face[0] = 'S';
skins[i].face[1] = 'T';
skins[i].face[2] = 'F';
skins[i].face[3] = '\0';
}
else
{
strcpy(skins[i].face, pclassface);
}
skins[i].range0start = basetype->Meta.GetMetaInt (APMETA_ColorRange) & 255;
skins[i].range0end = basetype->Meta.GetMetaInt (APMETA_ColorRange) >> 8;
skins[i].ScaleX = GetDefaultByType (basetype)->scaleX;
skins[i].ScaleY = GetDefaultByType (basetype)->scaleY;
skins[i].sprite = GetDefaultByType (basetype)->SpawnState->sprite;
skins[i].namespc = ns_global;
PlayerClasses[i].Skins.Push (i);
if (memcmp (sprites[skins[i].sprite].name, "PLAY", 4) == 0)
{
for (j = 0; j < sprites.Size (); j++)
{
if (memcmp (sprites[j].name, deh.PlayerSprite, 4) == 0)
{
skins[i].sprite = (int)j;
break;
}
}
}
}
// [RH] Sort the skins, but leave base as skin 0
//qsort (&skins[PlayerClasses.Size ()], numskins-PlayerClasses.Size (), sizeof(FPlayerSkin), skinsorter);
gl_InitModels();
}
void R_DeinitSpriteData()
{
// Free skins
if (skins != NULL)
{
delete[] skins;
skins = NULL;
}
}