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VVVVVV/desktop_version/src/Music.cpp
Misa e9c62ea9a3 Clean up unnecessary exports and add static keywords
This patch cleans up unnecessary exports from header files (there were
only a few), as well as adds the static keyword to all symbols that
aren't exported and are specific to a file. This helps the linker out in
not doing any unnecessary work, speeding it up and avoiding silent
symbol conflicts (otherwise two symbols with the same name (and
type/signature in C++) would quietly resolve as okay by the linker).
2021-01-10 12:23:59 -05:00

377 lines
8.2 KiB
C++

#define MUSIC_DEFINITION
#include "Music.h"
#include <SDL.h>
#include <stdio.h>
#include "BinaryBlob.h"
#include "Map.h"
#include "UtilityClass.h"
static void songend();
musicclass::musicclass()
{
safeToProcessMusic= false;
m_doFadeInVol = false;
musicVolume = MIX_MAX_VOLUME;
FadeVolAmountPerFrame = 0;
currentsong = 0;
nicechange = -1;
nicefade = false;
resumesong = 0;
quick_fade = true;
songStart = 0;
songEnd = 0;
Mix_HookMusicFinished(&songend);
usingmmmmmm = false;
}
void musicclass::init()
{
for (size_t i = 0; i < soundTracks.size(); ++i)
{
Mix_FreeChunk(soundTracks[i].sound);
}
soundTracks.clear();
// Before we free all the music: stop playing music, else SDL2_mixer
// will call SDL_Delay() if we are fading, resulting in no-draw frames
Mix_HaltMusic();
for (size_t i = 0; i < musicTracks.size(); ++i)
{
Mix_FreeMusic(musicTracks[i].m_music);
}
musicTracks.clear();
musicReadBlob.clear();
soundTracks.push_back(SoundTrack( "sounds/jump.wav" ));
soundTracks.push_back(SoundTrack( "sounds/jump2.wav" ));
soundTracks.push_back(SoundTrack( "sounds/hurt.wav" ));
soundTracks.push_back(SoundTrack( "sounds/souleyeminijingle.wav" ));
soundTracks.push_back(SoundTrack( "sounds/coin.wav" ));
soundTracks.push_back(SoundTrack( "sounds/save.wav" ));
soundTracks.push_back(SoundTrack( "sounds/crumble.wav" ));
soundTracks.push_back(SoundTrack( "sounds/vanish.wav" ));
soundTracks.push_back(SoundTrack( "sounds/blip.wav" ));
soundTracks.push_back(SoundTrack( "sounds/preteleport.wav" ));
soundTracks.push_back(SoundTrack( "sounds/teleport.wav" ));
soundTracks.push_back(SoundTrack( "sounds/crew1.wav" ));
soundTracks.push_back(SoundTrack( "sounds/crew2.wav" ));
soundTracks.push_back(SoundTrack( "sounds/crew3.wav" ));
soundTracks.push_back(SoundTrack( "sounds/crew4.wav" ));
soundTracks.push_back(SoundTrack( "sounds/crew5.wav" ));
soundTracks.push_back(SoundTrack( "sounds/crew6.wav" ));
soundTracks.push_back(SoundTrack( "sounds/terminal.wav" ));
soundTracks.push_back(SoundTrack( "sounds/gamesaved.wav" ));
soundTracks.push_back(SoundTrack( "sounds/crashing.wav" ));
soundTracks.push_back(SoundTrack( "sounds/blip2.wav" ));
soundTracks.push_back(SoundTrack( "sounds/countdown.wav" ));
soundTracks.push_back(SoundTrack( "sounds/go.wav" ));
soundTracks.push_back(SoundTrack( "sounds/crash.wav" ));
soundTracks.push_back(SoundTrack( "sounds/combine.wav" ));
soundTracks.push_back(SoundTrack( "sounds/newrecord.wav" ));
soundTracks.push_back(SoundTrack( "sounds/trophy.wav" ));
soundTracks.push_back(SoundTrack( "sounds/rescue.wav" ));
#ifdef VVV_COMPILEMUSIC
binaryBlob musicWriteBlob;
#define FOREACH_TRACK(track_name) musicWriteBlob.AddFileToBinaryBlob(track_name);
TRACK_NAMES
#undef FOREACH_TRACK
musicWriteBlob.writeBinaryBlob("data/BinaryMusic.vvv");
#endif
num_mmmmmm_tracks = 0;
num_pppppp_tracks = 0;
if (!musicReadBlob.unPackBinary("mmmmmm.vvv"))
{
mmmmmm = false;
usingmmmmmm=false;
bool ohCrap = musicReadBlob.unPackBinary("vvvvvvmusic.vvv");
SDL_assert(ohCrap && "Music not found!");
}
else
{
mmmmmm = true;
int index;
SDL_RWops *rw;
#define FOREACH_TRACK(track_name) \
index = musicReadBlob.getIndex(track_name); \
if (index >= 0 && index < musicReadBlob.max_headers) \
{ \
rw = SDL_RWFromMem(musicReadBlob.getAddress(index), musicReadBlob.getSize(index)); \
if (rw == NULL) \
{ \
printf("Unable to read music file header: %s\n", SDL_GetError()); \
} \
else \
{ \
musicTracks.push_back(MusicTrack( rw )); \
} \
}
TRACK_NAMES
num_mmmmmm_tracks += musicTracks.size();
const std::vector<int> extra = musicReadBlob.getExtra();
for (size_t i = 0; i < extra.size(); i++)
{
const int& index_ = extra[i];
rw = SDL_RWFromMem(musicReadBlob.getAddress(index_), musicReadBlob.getSize(index_));
musicTracks.push_back(MusicTrack( rw ));
num_mmmmmm_tracks++;
}
bool ohCrap = musicReadBlob.unPackBinary("vvvvvvmusic.vvv");
SDL_assert(ohCrap && "Music not found!");
}
int index;
SDL_RWops *rw;
TRACK_NAMES
#undef FOREACH_TRACK
num_pppppp_tracks += musicTracks.size() - num_mmmmmm_tracks;
const std::vector<int> extra = musicReadBlob.getExtra();
for (size_t i = 0; i < extra.size(); i++)
{
const int& index_ = extra[i];
rw = SDL_RWFromMem(musicReadBlob.getAddress(index_), musicReadBlob.getSize(index_));
musicTracks.push_back(MusicTrack( rw ));
num_pppppp_tracks++;
}
}
static void songend()
{
extern musicclass music;
music.songEnd = SDL_GetPerformanceCounter();
music.currentsong = -1;
}
void musicclass::play(int t, const double position_sec /*= 0.0*/, const int fadein_ms /*= 3000*/)
{
if (mmmmmm && usingmmmmmm)
{
// Don't conjoin this if-statement with the above one...
if (num_mmmmmm_tracks > 0)
{
t %= num_mmmmmm_tracks;
}
}
else if (num_pppppp_tracks > 0)
{
t %= num_pppppp_tracks;
}
if (mmmmmm && !usingmmmmmm)
{
t += num_mmmmmm_tracks;
}
safeToProcessMusic = true;
musicVolume = MIX_MAX_VOLUME;
if (currentsong == t && Mix_PlayingMusic() != MIX_FADING_OUT)
{
return;
}
currentsong = t;
if (t == -1)
{
return;
}
if (!INBOUNDS_VEC(t, musicTracks))
{
puts("play() out-of-bounds!");
currentsong = -1;
return;
}
if (currentsong == 0 || currentsong == 7 || (!map.custommode && (currentsong == 0+num_mmmmmm_tracks || currentsong == 7+num_mmmmmm_tracks)))
{
// Level Complete theme, no fade in or repeat
if (Mix_FadeInMusicPos(musicTracks[t].m_music, 0, 0, position_sec) == -1)
{
printf("Mix_FadeInMusicPos: %s\n", Mix_GetError());
}
}
else
{
if (Mix_FadingMusic() == MIX_FADING_OUT)
{
// We're already fading out
nicechange = t;
nicefade = true;
currentsong = -1;
if (quick_fade)
{
Mix_FadeOutMusic(500); // fade out quicker
}
else
{
quick_fade = true;
}
}
else if (Mix_FadeInMusicPos(musicTracks[t].m_music, -1, fadein_ms, position_sec) == -1)
{
printf("Mix_FadeInMusicPos: %s\n", Mix_GetError());
}
}
songStart = SDL_GetPerformanceCounter();
}
void musicclass::resume(const int fadein_ms /*= 0*/)
{
const double offset = static_cast<double>(songEnd - songStart);
const double frequency = static_cast<double>(SDL_GetPerformanceFrequency());
const double position_sec = offset / frequency;
play(resumesong, position_sec, fadein_ms);
}
void musicclass::fadein()
{
resume(3000); // 3000 ms fadein
}
void musicclass::haltdasmusik()
{
Mix_HaltMusic();
resumesong = currentsong;
}
void musicclass::silencedasmusik()
{
musicVolume = 0;
}
void musicclass::fadeMusicVolumeIn(int ms)
{
m_doFadeInVol = true;
FadeVolAmountPerFrame = MIX_MAX_VOLUME / (ms / 33);
}
void musicclass::fadeout(const bool quick_fade_ /*= true*/)
{
Mix_FadeOutMusic(2000);
resumesong = currentsong;
quick_fade = quick_fade_;
}
void musicclass::processmusicfadein()
{
musicVolume += FadeVolAmountPerFrame;
if (musicVolume >= MIX_MAX_VOLUME)
{
m_doFadeInVol = false;
}
}
void musicclass::processmusic()
{
if(!safeToProcessMusic)
{
return;
}
if (nicefade && Mix_PlayingMusic() == 0)
{
play(nicechange);
nicechange = -1;
nicefade = false;
}
if(m_doFadeInVol)
{
processmusicfadein();
}
}
void musicclass::niceplay(int t)
{
// important: do nothing if the correct song is playing!
if((!mmmmmm && currentsong!=t) || (mmmmmm && usingmmmmmm && currentsong!=t) || (mmmmmm && !usingmmmmmm && currentsong!=t+num_mmmmmm_tracks))
{
if(currentsong!=-1)
{
fadeout(false);
}
nicefade = true;
nicechange = t;
}
}
void musicclass::changemusicarea(int x, int y)
{
switch(musicroom(x, y))
{
case musicroom(11, 4):
niceplay(2);
break;
case musicroom(2, 4):
case musicroom(7, 15):
niceplay(3);
break;
case musicroom(18, 1):
case musicroom(15, 0):
niceplay(12);
break;
case musicroom(0, 0):
case musicroom(0, 16):
case musicroom(2, 11):
case musicroom(7, 9):
case musicroom(8, 11):
case musicroom(13, 2):
case musicroom(17, 12):
case musicroom(14, 19):
case musicroom(17, 17):
niceplay(4);
break;
default:
niceplay(1);
break;
}
}
void musicclass::playef(int t)
{
if (!INBOUNDS_VEC(t, soundTracks))
{
return;
}
int channel;
channel = Mix_PlayChannel(-1, soundTracks[t].sound, 0);
if(channel == -1)
{
fprintf(stderr, "Unable to play WAV file: %s\n", Mix_GetError());
}
}