raze-gles/source/duke3d/src/anim.cpp

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//-------------------------------------------------------------------------
/*
Copyright (C) 2010 EDuke32 developers and contributors
This file is part of EDuke32.
EDuke32 is free software; you can redistribute it and/or
modify it under the terms of the GNU General Public License version 2
as published by the Free Software Foundation.
This program is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.
See the GNU General Public License for more details.
You should have received a copy of the GNU General Public License
along with this program; if not, write to the Free Software
Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA.
*/
//-------------------------------------------------------------------------
#include "ns.h" // Must come before everything else!
#include "baselayer.h"
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#include "baselayer.h"
#include "duke3d.h"
#include "animlib.h"
#include "cmdlib.h"
#include "compat.h"
#include "build.h"
#include "v_2ddrawer.h"
#include "../glbackend/glbackend.h"
#include "anim.h"
#ifdef USE_LIBVPX
# include "animvpx.h"
#endif
BEGIN_DUKE_NS
dukeanim_t* g_animPtr;
TArray<dukeanim_t> g_Animations;
dukeanim_t* Anim_Find(const char* s)
{
auto index = g_Animations.FindEx([=](dukeanim_t& anm) { return !anm.name.CompareNoCase(s); });
if (index == g_Animations.Size())
{
FString fname = s;
DefaultExtension(fname, ".anm");
index = g_Animations.FindEx([=](dukeanim_t& anm) { return !anm.name.CompareNoCase(fname); });
if (index == g_Animations.Size())
{
fname = s;
DefaultExtension(fname, ".ivf");
index = g_Animations.FindEx([=](dukeanim_t& anm) { return !anm.name.CompareNoCase(fname); });
if (index == g_Animations.Size()) return nullptr;
}
}
return &g_Animations[index];
}
dukeanim_t * Anim_Create(char const * fn)
{
g_Animations.Reserve(1);
auto p = &g_Animations.Last();
p->name = fn;
return p;
}
#ifndef EDUKE32_STANDALONE
#ifdef DYNSOUNDREMAP_ENABLE
static int32_t const StopAllSounds = -1;
#else
# define StopAllSounds -1
#endif
#endif
void Anim_Init(void)
{
struct defaultanmsound {
#ifdef DYNSOUNDREMAP_ENABLE
int32_t const & sound;
#else
int16_t sound;
#endif
uint8_t frame;
};
static defaultanmsound const logo[] =
{
{ FLY_BY, 1 },
{ PIPEBOMB_EXPLODE, 19 },
};
#ifndef EDUKE32_STANDALONE
static defaultanmsound const cineov2[] =
{
{ WIND_AMBIENCE, 1 },
{ ENDSEQVOL2SND1, 26 },
{ ENDSEQVOL2SND2, 36 },
{ THUD, 54 },
{ ENDSEQVOL2SND3, 62 },
{ ENDSEQVOL2SND4, 75 },
{ ENDSEQVOL2SND5, 81 },
{ ENDSEQVOL2SND6, 115 },
{ ENDSEQVOL2SND7, 124 },
};
static defaultanmsound const cineov3[] =
{
{ WIND_REPEAT, 1 },
{ DUKE_GRUNT, 98 },
{ THUD, 82+20 },
{ SQUISHED, 82+20 },
{ ENDSEQVOL3SND3, 104+20 },
{ ENDSEQVOL3SND2, 114+20 },
{ PIPEBOMB_EXPLODE, 158 },
};
static defaultanmsound const vol42a[] =
{
{ INTRO4_B, 1 },
{ SHORT_CIRCUIT, 12 },
{ INTRO4_5, 18 },
{ SHORT_CIRCUIT, 34 },
};
static defaultanmsound const vol41a[] =
{
{ INTRO4_1, 1 },
{ INTRO4_3, 7 },
{ INTRO4_2, 12 },
{ INTRO4_4, 26 },
};
static defaultanmsound const vol43a[] =
{
{ INTRO4_6, 10 },
};
static defaultanmsound const vol4e1[] =
{
{ DUKE_UNDERWATER, 3 },
{ VOL4ENDSND1, 35 },
};
static defaultanmsound const vol4e2[] =
{
{ DUKE_UNDERWATER, 11 },
{ VOL4ENDSND1, 20 },
{ VOL4ENDSND2, 39 },
{ StopAllSounds, 50 },
};
static defaultanmsound const vol4e3[] =
{
{ BOSS4_DEADSPEECH, 1 },
{ VOL4ENDSND1, 40 },
{ DUKE_UNDERWATER, 40 },
{ BIGBANG, 50 },
};
#endif
struct defaultanm {
char const *fn;
defaultanmsound const *sounds;
uint8_t numsounds;
uint8_t fdelay;
};
#define anmsnd(x) (x), ARRAY_SIZE(x)
static defaultanm const anms[] =
{
{ "logo.anm", anmsnd(logo), 9 },
{ "3dr.anm", NULL, 0, 10 },
#ifndef EDUKE32_STANDALONE
{ "vol4e1.anm", anmsnd(vol4e1), 10 },
{ "vol4e2.anm", anmsnd(vol4e2), 14 },
{ "vol4e3.anm", anmsnd(vol4e3), 10 },
{ "vol41a.anm", anmsnd(vol41a), 14 },
{ "vol42a.anm", anmsnd(vol42a), 18 },
{ "vol43a.anm", anmsnd(vol43a), 10 },
{ "duketeam.anm", NULL, 0, 10 },
{ "radlogo.anm", NULL, 0, 10 },
{ "cineov2.anm", anmsnd(cineov2), 18 },
{ "cineov3.anm", anmsnd(cineov3), 10 },
#endif
};
#undef anmsnd
for (defaultanm const & anm : anms)
{
dukeanim_t * anim = Anim_Create(anm.fn);
anim->framedelay = anm.fdelay;
if (anm.numsounds)
{
anim->Sounds.Resize(anm.numsounds);
int const numsounds = anm.numsounds;
for (int i = 0; i < numsounds; ++i)
{
defaultanmsound const & src = anm.sounds[i];
animsound_t & dst = anim->Sounds[i];
dst.sound = src.sound;
dst.frame = src.frame;
}
}
anim->frameflags = 0;
}
}
int32_t Anim_Play(const char *fn)
{
dukeanim_t *anim = Anim_Find(fn);
if (!anim)
{
OSD_Printf("Animation %s is undefined!\n", fn);
return 0;
}
uint16_t soundidx = 0; // custom anim sounds
int32_t running = 1, i;
inputState.ClearAllInput();
#ifdef USE_LIBVPX
uint16_t framenum = 0;
while (videoGetRenderMode() >= REND_POLYMOST) // if, really
{
char const* dot = Bstrrchr(fn, '.');
if (!dot)
break;
dukeanim_t const* origanim = anim;
FileReader handle;
if (!Bstrcmp(dot, ".ivf"))
{
handle = fileSystem.OpenFileReader(fn, 0);
if (!handle.isOpen())
break;
}
else
{
char vpxfn[BMAX_PATH];
Bstrncpyz(vpxfn, fn, BMAX_PATH);
ptrdiff_t dotpos = dot - fn;
if (dotpos + 4 >= BMAX_PATH)
break;
char* vpxfndot = vpxfn + dotpos;
vpxfndot[1] = 'i';
vpxfndot[2] = 'v';
vpxfndot[3] = 'f';
vpxfndot[4] = '\0';
handle = fileSystem.OpenFileReader(vpxfn, 0);
if (!handle.isOpen())
break;
anim = Anim_Find(vpxfn);
}
animvpx_ivf_header_t info;
i = animvpx_read_ivf_header(handle, &info);
if (i)
{
OSD_Printf("Failed reading IVF file: %s\n", animvpx_read_ivf_header_errmsg[i]);
return 0;
}
if (anim)
animvpx_setup_glstate(anim->frameflags);
else
animvpx_setup_glstate(origanim->frameflags);
animvpx_codec_ctx codec;
if (animvpx_init_codec(&info, handle, &codec))
{
OSD_Printf("Error initializing VPX codec.\n");
animvpx_restore_glstate();
return 0;
}
uint32_t const convnumer = 120 * info.fpsdenom;
uint32_t const convdenom = info.fpsnumer * origanim->framedelay;
uint32_t const msecsperframe = scale(info.fpsdenom, 1000, info.fpsnumer);
uint32_t nextframetime = timerGetTicks();
uint8_t* pic;
// OSD_Printf("msecs per frame: %d\n", msecsperframe);
do
{
nextframetime += msecsperframe;
i = animvpx_nextpic(&codec, &pic);
if (i)
{
OSD_Printf("Failed getting next pic: %s\n", animvpx_nextpic_errmsg[i]);
if (codec.errmsg)
{
OSD_Printf(" %s\n", codec.errmsg);
if (codec.errmsg_detail)
OSD_Printf(" detail: %s\n", codec.errmsg_detail);
}
break;
}
if (!pic)
break; // no more pics!
VM_OnEventWithReturn(EVENT_PRECUTSCENE, g_player[screenpeek].ps->i, screenpeek, framenum);
twod->ClearScreen();
ototalclock = totalclock + 1; // pause game like ANMs
if (anim)
{
if (anim->frameaspect1 == 0 || anim->frameaspect2 == 0)
animvpx_render_frame(&codec, 0);
else
animvpx_render_frame(&codec, anim->frameaspect1 / anim->frameaspect2);
}
else
{
if (origanim->frameaspect1 == 0 || origanim->frameaspect2 == 0)
animvpx_render_frame(&codec, 0);
else
animvpx_render_frame(&codec, origanim->frameaspect1 / origanim->frameaspect2);
}
VM_OnEventWithReturn(EVENT_CUTSCENE, g_player[screenpeek].ps->i, screenpeek, framenum);
// after rendering the frame but before displaying: maybe play sound...
framenum++;
if (anim)
{
while (soundidx < anim->Sounds.Size() && anim->Sounds[soundidx].frame <= framenum)
{
int16_t sound = anim->Sounds[soundidx].sound;
if (sound == -1)
FX_StopAllSounds();
else
S_PlaySound(sound, CHAN_AUTO, CHANF_UI);
soundidx++;
}
}
else
{
uint16_t convframenum = scale(framenum, convnumer, convdenom);
while (soundidx < origanim->Sounds.Size() && origanim->Sounds[soundidx].frame <= convframenum)
{
int16_t sound = origanim->Sounds[soundidx].sound;
if (sound == -1)
FX_StopAllSounds();
else
S_PlaySound(sound, CHAN_AUTO, CHANF_UI);
soundidx++;
}
}
videoNextPage();
Massive menu input control revamp/cleanup/factor. (added: input.[ch]) New Wii control defaults for the Wii Remote + Nunchuk and the Classic Controller. This includes new code added just so that the Home key brings up the menu in-game, reducing the need for a USB keyboard. On the technical side, raw joystick access (comparable to what is available for keyboard and mouse) is now present in jmact, on the game side. (added: joystick.[ch]) Using this new raw joystick access, I replaced tueidj's hack to map A and B to LMB/RMB and D-Pad Up/Down to the scrollwheel. I made the menus more friendly to mouse and joystick browsing by adding and unifying checks and clears for various buttons and gamefuncs. In fact, the majority of the time spent on this commit was tracking down problems that appeared with the factoring and trying to understand the menu system and the way input checks are precariously executed. In addition, "Press any key or button to continue" now truly means what it says. As a result of incorporating proper raw access into control.c instead of it directly accessing the implementaiton, the program *may* no longer be affected by joystick input when it is out of focus. This follows the pattern set by the mouse, and I think this is a positive change. A small bonus: In the classic/old keyboard preset, the key for Show_Console has been changed from '`' to 'C' because '`' is taken by Quick_Kick. git-svn-id: https://svn.eduke32.com/eduke32@2728 1a8010ca-5511-0410-912e-c29ae57300e0
2012-06-03 16:11:22 +00:00
do
{
gameHandleEvents();
if (VM_OnEventWithReturn(EVENT_SKIPCUTSCENE, g_player[screenpeek].ps->i, screenpeek, inputState.CheckAllInput()))
{
running = 0;
break;
}
} while (timerGetTicks() < nextframetime);
} while (running);
#ifdef DEBUGGINGAIDS
animvpx_print_stats(&codec);
#endif
//
animvpx_restore_glstate();
animvpx_uninit_codec(&codec);
return !running; // done with playing VP8!
}
#endif
// ANM playback --- v v v ---
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int32_t ogltexfiltermode = hw_texfilter;
TArray<uint8_t> buffer;
auto fr = fileSystem.OpenFileReader(fn, 0);
if (!fr.isOpen())
goto end_anim;
buffer = fr.ReadPadded(1);
fr.Close();
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anim->animbuf = buffer.Data();
uint32_t firstfour;
Bmemcpy(&firstfour, anim->animbuf, 4);
// "DKIF" (.ivf)
if (firstfour == B_LITTLE32(0x46494B44u))
goto end_anim;
int32_t numframes;
// "LPF " (.anm)
if (firstfour != B_LITTLE32(0x2046504Cu) ||
ANIM_LoadAnim(anim->animbuf, buffer.Size()-1) < 0 ||
(numframes = ANIM_NumFrames()) <= 0)
{
// XXX: ANM_LoadAnim() still checks less than the bare minimum,
// e.g. ANM file could still be too small and not contain any frames.
OSD_Printf("Error: malformed ANM file \"%s\".\n", fn);
goto end_anim;
}
paletteSetColorTable(ANIMPAL, ANIM_GetPalette(), true);
P_SetGamePalette(g_player[myconnectindex].ps, ANIMPAL, Pal_Fullscreen);
#ifdef USE_OPENGL
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if ((anim->frameflags & CUTSCENE_TEXTUREFILTER && hw_texfilter == TEXFILTER_ON) || anim->frameflags & CUTSCENE_FORCEFILTER)
hw_texfilter = TEXFILTER_ON;
#endif
ototalclock = totalclock;
i = 1;
int32_t frametime; frametime = 0;
do
{
if (i > 4 && totalclock > frametime + 60)
{
OSD_Printf("WARNING: slowdown in %s, skipping playback\n", fn);
goto end_anim_restore_gl;
}
gameHandleEvents();
if (totalclock < ototalclock - 1)
continue;
i = VM_OnEventWithReturn(EVENT_PRECUTSCENE, g_player[screenpeek].ps->i, screenpeek, i);
TileFiles.tileSetExternal(TILE_ANIM, 200, 320, ANIM_DrawFrame(i));
tileInvalidate(TILE_ANIM, 0, 1 << 4); // JBF 20031228
if (VM_OnEventWithReturn(EVENT_SKIPCUTSCENE, g_player[screenpeek].ps->i, screenpeek, inputState.CheckAllInput()))
{
running = 0;
goto end_anim_restore_gl;
}
Massive menu input control revamp/cleanup/factor. (added: input.[ch]) New Wii control defaults for the Wii Remote + Nunchuk and the Classic Controller. This includes new code added just so that the Home key brings up the menu in-game, reducing the need for a USB keyboard. On the technical side, raw joystick access (comparable to what is available for keyboard and mouse) is now present in jmact, on the game side. (added: joystick.[ch]) Using this new raw joystick access, I replaced tueidj's hack to map A and B to LMB/RMB and D-Pad Up/Down to the scrollwheel. I made the menus more friendly to mouse and joystick browsing by adding and unifying checks and clears for various buttons and gamefuncs. In fact, the majority of the time spent on this commit was tracking down problems that appeared with the factoring and trying to understand the menu system and the way input checks are precariously executed. In addition, "Press any key or button to continue" now truly means what it says. As a result of incorporating proper raw access into control.c instead of it directly accessing the implementaiton, the program *may* no longer be affected by joystick input when it is out of focus. This follows the pattern set by the mouse, and I think this is a positive change. A small bonus: In the classic/old keyboard preset, the key for Show_Console has been changed from '`' to 'C' because '`' is taken by Quick_Kick. git-svn-id: https://svn.eduke32.com/eduke32@2728 1a8010ca-5511-0410-912e-c29ae57300e0
2012-06-03 16:11:22 +00:00
if (g_restorePalette == 1)
{
P_SetGamePalette(g_player[myconnectindex].ps, ANIMPAL, 0);
g_restorePalette = 0;
}
frametime = (int32_t) totalclock;
videoClearScreen(0);
int32_t z;
if (anim->frameaspect1 > 0 && anim->frameaspect2 > 0 && ((anim->frameaspect1 / anim->frameaspect2) != (tilesiz[TILE_ANIM].y / (tilesiz[TILE_ANIM].x * 1.2))))
{
int32_t const oyxaspect = yxaspect;
if ((anim->frameaspect1 / anim->frameaspect2) >= ((decltype(anim->frameaspect1))xdim / ydim))
z = divscale16(320, tilesiz[TILE_ANIM].y);
else
z = divscale16(lrint(320 * ydim * anim->frameaspect1), lrint(tilesiz[TILE_ANIM].y * xdim * anim->frameaspect2));
int32_t aspect = divscale16(lrint(tilesiz[TILE_ANIM].y * anim->frameaspect2), lrint(tilesiz[TILE_ANIM].x * anim->frameaspect1));
renderSetAspect(viewingrange, aspect);
rotatesprite_fs(160<<16, 100<<16, z, 512, TILE_ANIM, 0, 0, 2|4|8|64|1024);
renderSetAspect(viewingrange, oyxaspect);
}
else
{
if ((tilesiz[TILE_ANIM].y / (tilesiz[TILE_ANIM].x * 1.2f)) > (1.f * xdim / ydim))
z = divscale16(320 * xdim * 3, tilesiz[TILE_ANIM].y * ydim * 4);
else
z = divscale16(200, tilesiz[TILE_ANIM].x);
rotatesprite_fs(160<<16, 100<<16, z, 512, TILE_ANIM, 0, 0, 2|4|8|64);
}
g_animPtr = anim;
i = VM_OnEventWithReturn(EVENT_CUTSCENE, g_player[screenpeek].ps->i, screenpeek, i);
g_animPtr = NULL;
videoNextPage();
inputState.ClearAllInput();
ototalclock += anim->framedelay;
while (soundidx < anim->Sounds.Size() && anim->Sounds[soundidx].frame <= (uint16_t)i)
{
int16_t sound = anim->Sounds[soundidx].sound;
if (sound == -1)
FX_StopAllSounds();
else
S_PlaySound(sound, CHAN_AUTO, CHANF_UI);
soundidx++;
}
++i;
} while (i < numframes);
end_anim_restore_gl:
2019-10-23 19:11:37 +00:00
hw_texfilter = ogltexfiltermode;
gltexapplyprops();
end_anim:
inputState.ClearAllInput();
anim->animbuf = nullptr;
ANIM_FreeAnim();
tileDelete(TILE_ANIM);
return !running;
}
END_DUKE_NS