Merge branch 'master' into lua-additions

This commit is contained in:
Monster Iestyn 2016-10-29 17:05:31 +01:00
commit 39f837e56f
9 changed files with 142 additions and 82 deletions

View file

@ -45,7 +45,7 @@
#include "hw_md2.h"
#define R_FAKEFLOORS
//#define HWPRECIP
#define HWPRECIP
#define SORTING
//#define POLYSKY
@ -4401,7 +4401,6 @@ static inline void HWR_DrawPrecipitationSprite(gr_vissprite_t *spr)
FOutVector *wv;
GLPatch_t *gpatch; // sprite patch converted to hardware
FSurfaceInfo Surf;
sector_t *sector;
if (!spr->mobj)
return;
@ -4455,19 +4454,38 @@ static inline void HWR_DrawPrecipitationSprite(gr_vissprite_t *spr)
//Hurdler: 25/04/2000: now support colormap in hardware mode
HWR_GetMappedPatch(gpatch, spr->colormap);
sector = spr->mobj->subsector->sector;
if (sector->ffloors)
// colormap test
{
ffloor_t *caster = sector->lightlist[R_GetPlaneLight(sector, spr->mobj->z, false)].caster;
sector = caster ? &sectors[caster->secnum] : sector;
sector_t *sector = spr->mobj->subsector->sector;
UINT8 lightlevel = 255;
extracolormap_t *colormap = sector->extra_colormap;
if (sector->numlights)
{
INT32 light;
light = R_GetPlaneLight(sector, spr->mobj->z + spr->mobj->height, false); // Always use the light at the top instead of whatever I was doing before
if (!(spr->mobj->frame & FF_FULLBRIGHT))
lightlevel = *sector->lightlist[light].lightlevel;
if (sector->lightlist[light].extra_colormap)
colormap = sector->lightlist[light].extra_colormap;
}
else
{
if (!(spr->mobj->frame & FF_FULLBRIGHT))
lightlevel = sector->lightlevel;
if (sector->extra_colormap)
colormap = sector->extra_colormap;
}
// sprite lighting by modulating the RGB components
if (sector->extra_colormap)
Surf.FlatColor.rgba = HWR_Lighting(spr->sectorlight,sector->extra_colormap->rgba,sector->extra_colormap->fadergba, false, false);
if (colormap)
Surf.FlatColor.rgba = HWR_Lighting(lightlevel, colormap->rgba, colormap->fadergba, false, false);
else
Surf.FlatColor.rgba = HWR_Lighting(spr->sectorlight,NORMALFOG,FADEFOG, false, false);
Surf.FlatColor.rgba = HWR_Lighting(lightlevel, NORMALFOG, FADEFOG, false, false);
}
if (spr->mobj->flags2 & MF2_SHADOW)
{
@ -5295,6 +5313,11 @@ static void HWR_ProjectPrecipitationSprite(precipmobj_t *thing)
//
vis = HWR_NewVisSprite();
vis->x1 = x1;
#if 0
vis->x2 = x2;
#else
(void)x2;
#endif
vis->x2 = tx;
vis->tz = tz;
vis->dispoffset = 0; // Monster Iestyn: 23/11/15: HARDWARE SUPPORT AT LAST
@ -5307,7 +5330,6 @@ static void HWR_ProjectPrecipitationSprite(precipmobj_t *thing)
// set top/bottom coords
vis->ty = FIXED_TO_FLOAT(thing->z + spritecachedinfo[lumpoff].topoffset) - gr_viewz;
vis->sectorlight = 0xff;
vis->precip = true;
}
#endif

View file

@ -452,7 +452,7 @@ void Command_RTeleport_f(void)
else
inty = 0;
ss = R_PointInSubsector(p->mo->x + intx*FRACUNIT, p->mo->y + inty*FRACUNIT);
ss = R_IsPointInSubsector(p->mo->x + intx*FRACUNIT, p->mo->y + inty*FRACUNIT);
if (!ss || ss->sector->ceilingheight - ss->sector->floorheight < p->mo->height)
{
CONS_Alert(CONS_NOTICE, M_GetText("Not a valid location.\n"));

View file

@ -1115,18 +1115,24 @@ static boolean PIT_CheckThing(mobj_t *thing)
return true;
}
topz = thing->z - FixedMul(FRACUNIT, thing->scale);
topz = thing->z - thing->scale; // FixedMul(FRACUNIT, thing->scale), but thing->scale == FRACUNIT in base scale anyways
// block only when jumping not high enough,
// (dont climb max. 24units while already in air)
// if not in air, let P_TryMove() decide if it's not too high
// since return false doesn't handle momentum properly,
// we lie to P_TryMove() so it's always too high
if (tmthing->player && tmthing->z + tmthing->height > topz
&& tmthing->z + tmthing->height < tmthing->ceilingz)
return false; // block while in air
if (thing->flags & MF_SPRING)
{
tmfloorz = tmceilingz = INT32_MIN; // block while in air
#ifdef ESLOPE
tmceilingslope = NULL;
#endif
tmfloorthing = thing; // needed for side collision
}
else if (thing->flags & MF_SPRING)
;
else if (topz < tmceilingz && tmthing->z+tmthing->height <= thing->z+thing->height)
else if (topz < tmceilingz && tmthing->z <= thing->z+thing->height)
{
tmceilingz = topz;
#ifdef ESLOPE
@ -1152,17 +1158,24 @@ static boolean PIT_CheckThing(mobj_t *thing)
return true;
}
topz = thing->z + thing->height + FixedMul(FRACUNIT, thing->scale);
topz = thing->z + thing->height + thing->scale; // FixedMul(FRACUNIT, thing->scale), but thing->scale == FRACUNIT in base scale anyways
// block only when jumping not high enough,
// (dont climb max. 24units while already in air)
// if not in air, let P_TryMove() decide if it's not too high
if (tmthing->player && tmthing->z < topz && tmthing->z > tmthing->floorz)
return false; // block while in air
if (thing->flags & MF_SPRING)
// since return false doesn't handle momentum properly,
// we lie to P_TryMove() so it's always too high
if (tmthing->player && tmthing->z < topz
&& tmthing->z > tmthing->floorz)
{
tmfloorz = tmceilingz = INT32_MAX; // block while in air
#ifdef ESLOPE
tmfloorslope = NULL;
#endif
tmfloorthing = thing; // needed for side collision
}
else if (thing->flags & MF_SPRING)
;
else if (topz > tmfloorz && tmthing->z >= thing->z)
else if (topz > tmfloorz && tmthing->z+tmthing->height >= thing->z)
{
tmfloorz = topz;
#ifdef ESLOPE

View file

@ -6450,6 +6450,8 @@ void P_RunOverlays(void)
P_UnsetThingPosition(mo);
mo->x = destx;
mo->y = desty;
mo->radius = mo->target->radius;
mo->height = mo->target->height;
if (mo->eflags & MFE_VERTICALFLIP)
mo->z = (mo->target->z + mo->target->height - mo->height) - zoffs;
else

View file

@ -2587,10 +2587,6 @@ boolean P_SetupLevel(boolean skipprecip)
R_ReInitColormaps(mapheaderinfo[gamemap-1]->palette);
CON_ReSetupBackColormap(mapheaderinfo[gamemap-1]->palette);
// now part of level loading since in future each level may have
// its own anim texture sequences, switches etc.
P_InitPicAnims();
// SRB2 determines the sky texture to be used depending on the map header.
P_SetupLevelSky(mapheaderinfo[gamemap-1]->skynum, true);
@ -3001,6 +2997,9 @@ boolean P_AddWadFile(const char *wadfilename, char **firstmapname)
else
R_FlushTextureCache(); // just reload it from file
// Reload ANIMATED / ANIMDEFS
P_InitPicAnims();
// Flush and reload HUD graphics
ST_UnloadGraphics();
HU_LoadGraphics();

View file

@ -221,8 +221,8 @@ static animdef_t harddefs[] =
static animdef_t *animdefs = NULL;
// A prototype; here instead of p_spec.h, so they're "private"
void P_ParseANIMDEFSLump(INT32 wadNum, UINT16 lumpnum, INT32 *i);
void P_ParseAnimationDefintion(SINT8 istexture, INT32 *i);
void P_ParseANIMDEFSLump(INT32 wadNum, UINT16 lumpnum);
void P_ParseAnimationDefintion(SINT8 istexture);
/** Sets up texture and flat animations.
*
@ -232,24 +232,21 @@ void P_ParseAnimationDefintion(SINT8 istexture, INT32 *i);
* Issues an error if any animation cycles are invalid.
*
* \sa P_FindAnimatedFlat, P_SetupLevelFlatAnims
* \author Steven McGranahan (original), Shadow Hog (had to rewrite it to handle multiple WADs)
* \author Steven McGranahan (original), Shadow Hog (had to rewrite it to handle multiple WADs), JTE (had to rewrite it to handle multiple WADs _correctly_)
*/
void P_InitPicAnims(void)
{
// Init animation
INT32 i; // Position in the animdefs array
INT32 w; // WAD
UINT8 *wadAnimdefs; // not to be confused with animdefs, the combined total of every ANIMATED lump in every WAD, or ANIMDEFS, the ZDoom lump I intend to implement later
UINT8 *animatedLump;
UINT8 *currentPos;
size_t i;
I_Assert(animdefs == NULL);
if (W_CheckNumForName("ANIMATED") != LUMPERROR || W_CheckNumForName("ANIMDEFS") != LUMPERROR)
{
if (animdefs)
{
Z_Free(animdefs);
animdefs = NULL;
}
for (w = 0, i = 0, maxanims = 0; w < numwadfiles; w++)
for (w = numwadfiles-1, maxanims = 0; w >= 0; w--)
{
UINT16 animatedLumpNum;
UINT16 animdefsLumpNum;
@ -258,20 +255,20 @@ void P_InitPicAnims(void)
animatedLumpNum = W_CheckNumForNamePwad("ANIMATED", w, 0);
if (animatedLumpNum != INT16_MAX)
{
wadAnimdefs = (UINT8 *)W_CacheLumpNumPwad(w, animatedLumpNum, PU_STATIC);
animatedLump = (UINT8 *)W_CacheLumpNumPwad(w, animatedLumpNum, PU_STATIC);
// Get the number of animations in the file
for (currentPos = wadAnimdefs; *currentPos != UINT8_MAX; maxanims++, currentPos+=23);
i = maxanims;
for (currentPos = animatedLump; *currentPos != UINT8_MAX; maxanims++, currentPos+=23);
// Resize animdefs (or if it hasn't been created, create it)
animdefs = (animdef_t *)Z_Realloc(animdefs, sizeof(animdef_t)*(maxanims + 1), PU_STATIC, NULL);
// Sanity check it
if (!animdefs) {
if (!animdefs)
I_Error("Not enough free memory for ANIMATED data");
}
// Populate the new array
for (currentPos = wadAnimdefs; *currentPos != UINT8_MAX; i++, currentPos+=23)
for (currentPos = animatedLump; *currentPos != UINT8_MAX; i++, currentPos+=23)
{
M_Memcpy(&(animdefs[i].istexture), currentPos, 1); // istexture, 1 byte
M_Memcpy(animdefs[i].endname, (currentPos + 1), 9); // endname, 9 bytes
@ -279,15 +276,13 @@ void P_InitPicAnims(void)
M_Memcpy(&(animdefs[i].speed), (currentPos + 19), 4); // speed, 4 bytes
}
Z_Free(wadAnimdefs);
Z_Free(animatedLump);
}
// Now find ANIMDEFS
animdefsLumpNum = W_CheckNumForNamePwad("ANIMDEFS", w, 0);
if (animdefsLumpNum != INT16_MAX)
{
P_ParseANIMDEFSLump(w, animdefsLumpNum, &i);
}
P_ParseANIMDEFSLump(w, animdefsLumpNum);
}
// Define the last one
animdefs[maxanims].istexture = -1;
@ -347,16 +342,20 @@ void P_InitPicAnims(void)
lastanim->istexture = -1;
R_ClearTextureNumCache(false);
// Clear animdefs now that we're done with it.
// We'll only be using anims from now on.
if (animdefs != harddefs)
Z_ChangeTag(animdefs, PU_CACHE);
Z_Free(animdefs);
animdefs = NULL;
}
void P_ParseANIMDEFSLump(INT32 wadNum, UINT16 lumpnum, INT32 *i)
void P_ParseANIMDEFSLump(INT32 wadNum, UINT16 lumpnum)
{
char *animdefsLump;
size_t animdefsLumpLength;
char *animdefsText;
char *animdefsToken;
char *p;
// Since lumps AREN'T \0-terminated like I'd assumed they should be, I'll
// need to make a space of memory where I can ensure that it will terminate
@ -376,18 +375,19 @@ void P_ParseANIMDEFSLump(INT32 wadNum, UINT16 lumpnum, INT32 *i)
Z_Free(animdefsLump);
// Now, let's start parsing this thing
animdefsToken = M_GetToken(animdefsText);
p = animdefsText;
animdefsToken = M_GetToken(p);
while (animdefsToken != NULL)
{
if (stricmp(animdefsToken, "TEXTURE") == 0)
{
Z_Free(animdefsToken);
P_ParseAnimationDefintion(1, i);
P_ParseAnimationDefintion(1);
}
else if (stricmp(animdefsToken, "FLAT") == 0)
{
Z_Free(animdefsToken);
P_ParseAnimationDefintion(0, i);
P_ParseAnimationDefintion(0);
}
else if (stricmp(animdefsToken, "OSCILLATE") == 0)
{
@ -398,23 +398,22 @@ void P_ParseANIMDEFSLump(INT32 wadNum, UINT16 lumpnum, INT32 *i)
{
I_Error("Error parsing ANIMDEFS lump: Expected \"TEXTURE\" or \"FLAT\", got \"%s\"",animdefsToken);
}
animdefsToken = M_GetToken(NULL);
// parse next line
while (*p != '\0' && *p != '\n') ++p;
if (*p == '\n') ++p;
animdefsToken = M_GetToken(p);
}
Z_Free(animdefsToken);
Z_Free((void *)animdefsText);
}
void P_ParseAnimationDefintion(SINT8 istexture, INT32 *i)
void P_ParseAnimationDefintion(SINT8 istexture)
{
char *animdefsToken;
size_t animdefsTokenLength;
char *endPos;
INT32 animSpeed;
// Increase the size to make room for the new animation definition
maxanims++;
animdefs = (animdef_t *)Z_Realloc(animdefs, sizeof(animdef_t)*(maxanims + 1), PU_STATIC, NULL);
animdefs[*i].istexture = istexture;
size_t i;
// Startname
animdefsToken = M_GetToken(NULL);
@ -448,14 +447,39 @@ void P_ParseAnimationDefintion(SINT8 istexture, INT32 *i)
{
I_Error("Error parsing ANIMDEFS lump: lump name \"%s\" exceeds 8 characters", animdefsToken);
}
strncpy(animdefs[*i].startname, animdefsToken, 9);
// Search for existing animdef
for (i = 0; i < maxanims; i++)
if (stricmp(animdefsToken, animdefs[i].startname) == 0)
{
//CONS_Alert(CONS_NOTICE, "Duplicate animation: %s\n", animdefsToken);
// If we weren't parsing in reverse order, we would `break` here and parse the new data into the existing slot we found.
// Instead, we're just going to skip parsing the rest of this line entirely.
Z_Free(animdefsToken);
return;
}
// Not found
if (i == maxanims)
{
// Increase the size to make room for the new animation definition
maxanims++;
animdefs = (animdef_t *)Z_Realloc(animdefs, sizeof(animdef_t)*(maxanims + 1), PU_STATIC, NULL);
strncpy(animdefs[i].startname, animdefsToken, 9);
}
// animdefs[i].startname is now set to animdefsToken either way.
Z_Free(animdefsToken);
// set texture type
animdefs[i].istexture = istexture;
// "RANGE"
animdefsToken = M_GetToken(NULL);
if (animdefsToken == NULL)
{
I_Error("Error parsing ANIMDEFS lump: Unexpected end of file where \"RANGE\" after \"%s\"'s startname should be", animdefs[*i].startname);
I_Error("Error parsing ANIMDEFS lump: Unexpected end of file where \"RANGE\" after \"%s\"'s startname should be", animdefs[i].startname);
}
if (stricmp(animdefsToken, "ALLOWDECALS") == 0)
{
@ -470,7 +494,7 @@ void P_ParseAnimationDefintion(SINT8 istexture, INT32 *i)
}
if (stricmp(animdefsToken, "RANGE") != 0)
{
I_Error("Error parsing ANIMDEFS lump: Expected \"RANGE\" after \"%s\"'s startname, got \"%s\"", animdefs[*i].startname, animdefsToken);
I_Error("Error parsing ANIMDEFS lump: Expected \"RANGE\" after \"%s\"'s startname, got \"%s\"", animdefs[i].startname, animdefsToken);
}
Z_Free(animdefsToken);
@ -478,21 +502,21 @@ void P_ParseAnimationDefintion(SINT8 istexture, INT32 *i)
animdefsToken = M_GetToken(NULL);
if (animdefsToken == NULL)
{
I_Error("Error parsing ANIMDEFS lump: Unexpected end of file where \"%s\"'s end texture/flat name should be", animdefs[*i].startname);
I_Error("Error parsing ANIMDEFS lump: Unexpected end of file where \"%s\"'s end texture/flat name should be", animdefs[i].startname);
}
animdefsTokenLength = strlen(animdefsToken);
if (animdefsTokenLength>8)
{
I_Error("Error parsing ANIMDEFS lump: lump name \"%s\" exceeds 8 characters", animdefsToken);
}
strncpy(animdefs[*i].endname, animdefsToken, 9);
strncpy(animdefs[i].endname, animdefsToken, 9);
Z_Free(animdefsToken);
// "TICS"
animdefsToken = M_GetToken(NULL);
if (animdefsToken == NULL)
{
I_Error("Error parsing ANIMDEFS lump: Unexpected end of file where \"%s\"'s \"TICS\" should be", animdefs[*i].startname);
I_Error("Error parsing ANIMDEFS lump: Unexpected end of file where \"%s\"'s \"TICS\" should be", animdefs[i].startname);
}
if (stricmp(animdefsToken, "RAND") == 0)
{
@ -501,7 +525,7 @@ void P_ParseAnimationDefintion(SINT8 istexture, INT32 *i)
}
if (stricmp(animdefsToken, "TICS") != 0)
{
I_Error("Error parsing ANIMDEFS lump: Expected \"TICS\" in animation definition for \"%s\", got \"%s\"", animdefs[*i].startname, animdefsToken);
I_Error("Error parsing ANIMDEFS lump: Expected \"TICS\" in animation definition for \"%s\", got \"%s\"", animdefs[i].startname, animdefsToken);
}
Z_Free(animdefsToken);
@ -509,7 +533,7 @@ void P_ParseAnimationDefintion(SINT8 istexture, INT32 *i)
animdefsToken = M_GetToken(NULL);
if (animdefsToken == NULL)
{
I_Error("Error parsing ANIMDEFS lump: Unexpected end of file where \"%s\"'s animation speed should be", animdefs[*i].startname);
I_Error("Error parsing ANIMDEFS lump: Unexpected end of file where \"%s\"'s animation speed should be", animdefs[i].startname);
}
endPos = NULL;
#ifndef AVOID_ERRNO
@ -523,13 +547,10 @@ void P_ParseAnimationDefintion(SINT8 istexture, INT32 *i)
#endif
|| animSpeed < 0) // Number is not positive
{
I_Error("Error parsing ANIMDEFS lump: Expected a positive integer for \"%s\"'s animation speed, got \"%s\"", animdefs[*i].startname, animdefsToken);
I_Error("Error parsing ANIMDEFS lump: Expected a positive integer for \"%s\"'s animation speed, got \"%s\"", animdefs[i].startname, animdefsToken);
}
animdefs[*i].speed = animSpeed;
animdefs[i].speed = animSpeed;
Z_Free(animdefsToken);
// Increment i before we go, so this doesn't cause issues later
(*i)++;
}

View file

@ -2262,14 +2262,13 @@ static void P_DoClimbing(player_t *player)
fixed_t platy;
subsector_t *glidesector;
boolean climb = true;
boolean onesided = ((player->lastsidehit != -1 && player->lastlinehit != -1) && !(lines[player->lastlinehit].backsector));
platx = P_ReturnThrustX(player->mo, player->mo->angle, player->mo->radius + FixedMul(8*FRACUNIT, player->mo->scale));
platy = P_ReturnThrustY(player->mo, player->mo->angle, player->mo->radius + FixedMul(8*FRACUNIT, player->mo->scale));
glidesector = R_PointInSubsector(player->mo->x + platx, player->mo->y + platy);
glidesector = R_IsPointInSubsector(player->mo->x + platx, player->mo->y + platy);
if (onesided || glidesector->sector != player->mo->subsector->sector)
if (!glidesector || glidesector->sector != player->mo->subsector->sector)
{
boolean floorclimb = false;
boolean thrust = false;
@ -2277,7 +2276,7 @@ static void P_DoClimbing(player_t *player)
boolean skyclimber = false;
fixed_t floorheight, ceilingheight; // ESLOPE
if (onesided)
if (!glidesector)
floorclimb = true;
else
{

View file

@ -1499,6 +1499,9 @@ void R_InitData(void)
CONS_Printf("R_LoadTextures()...\n");
R_LoadTextures();
CONS_Printf("P_InitPicAnims()...\n");
P_InitPicAnims();
CONS_Printf("R_InitSprites()...\n");
R_InitSpriteLumps();
R_InitSprites();

View file

@ -771,7 +771,7 @@ subsector_t *R_PointInSubsector(fixed_t x, fixed_t y)
}
//
// R_IsPointInSubsector, same as above but returns 0 if not in subsector - this does not work in opengl because of polyvertex_t
// R_IsPointInSubsector, same as above but returns 0 if not in subsector
//
subsector_t *R_IsPointInSubsector(fixed_t x, fixed_t y)
{
@ -795,7 +795,8 @@ subsector_t *R_IsPointInSubsector(fixed_t x, fixed_t y)
ret = &subsectors[nodenum & ~NF_SUBSECTOR];
for (i = 0; i < ret->numlines; i++)
if (R_PointOnSegSide(x, y, &segs[ret->firstline + i]))
//if (R_PointOnSegSide(x, y, &segs[ret->firstline + i])) -- breaks in ogl because polyvertex_t cast over vertex pointers
if (P_PointOnLineSide(x, y, segs[ret->firstline + i].linedef) != segs[ret->firstline + i].side)
return 0;
return ret;