sm64coopdx/data/dynos_warps.cpp
2022-03-30 23:05:53 -07:00

470 lines
16 KiB
C++

#include "dynos.cpp.h"
extern "C" {
#include "sm64.h"
#include "seq_ids.h"
#include "course_table.h"
#include "audio/external.h"
#include "engine/surface_collision.h"
#include "game/mario.h"
#include "game/ingame_menu.h"
#include "game/level_update.h"
#include "game/sound_init.h"
#include "game/object_list_processor.h"
#include "game/options_menu.h"
extern s8 gDialogBoxState;
extern s16 gMenuMode;
extern s32 gWdwWaterLevelSet;
extern u8 sSpawnTypeFromWarpBhv[];
extern void set_mario_initial_action(struct MarioState *, u32, u32);
extern void set_play_mode(s16);
}
//
// Data
//
s32 gDDDBowsersSub = -1;
s32 gDDDPoles = -1;
static s32 sDynosWarpLevelNum = -1;
static s32 sDynosWarpAreaNum = -1;
static s32 sDynosWarpActNum = -1;
static s32 sDynosExitLevelNum = -1;
static s32 sDynosExitAreaNum = -1;
//
// Level Entry
//
bool DynOS_Warp_ToLevel(s32 aLevel, s32 aArea, s32 aAct) {
if (DynOS_Level_GetCourse(aLevel) == COURSE_NONE || !DynOS_Level_GetWarpEntry(aLevel, aArea)) {
return false;
}
sDynosWarpLevelNum = aLevel;
sDynosWarpAreaNum = aArea;
sDynosWarpActNum = aAct;
return true;
}
bool DynOS_Warp_RestartLevel() {
return DynOS_Warp_ToLevel(gCurrLevelNum, 1, gCurrActNum);
}
//
// Level Exit
//
bool DynOS_Warp_ExitLevel(s32 aDelay) {
if (DynOS_Level_GetCourse(gCurrLevelNum) == COURSE_NONE) {
return false;
}
// Close the pause menu if it was open
optmenu_toggle();
level_set_transition(0, NULL);
gDialogBoxState = 0;
gMenuMode = -1;
// Cancel out every music/sound/sequence
for (u16 seqid = 0; seqid != SEQ_COUNT; ++seqid) {
stop_background_music(seqid);
}
play_shell_music();
stop_shell_music();
stop_cap_music();
func_80321080(0);
fadeout_music(0);
fadeout_level_music(0);
// Play Mario head transition, and change play mode to avoid getting stuck on the pause menu
aDelay = MAX(1, aDelay);
gMarioState->invincTimer = -1;
play_transition(WARP_TRANSITION_FADE_INTO_MARIO, aDelay, 0x00, 0x00, 0x00);
set_play_mode(0);
sDynosExitLevelNum = gCurrLevelNum;
sDynosExitAreaNum = gCurrAreaIndex;
return true;
}
bool DynOS_Warp_ToCastle(s32 aLevel) {
if (DynOS_Level_GetCourse(aLevel) == COURSE_NONE) {
return false;
}
// Close the pause menu if it was open
optmenu_toggle();
level_set_transition(0, NULL);
gDialogBoxState = 0;
gMenuMode = -1;
// Cancel out every music/sound/sequence
for (u16 seqid = 0; seqid != SEQ_COUNT; ++seqid) {
stop_background_music(seqid);
}
play_shell_music();
stop_shell_music();
stop_cap_music();
func_80321080(0);
fadeout_music(0);
fadeout_level_music(0);
// Change play mode to avoid getting stuck on the pause menu
set_play_mode(0);
sDynosExitLevelNum = aLevel;
sDynosExitAreaNum = 1;
return true;
}
//
// Params
//
const char *DynOS_Warp_GetParamName(s32 aLevel, s32 aIndex) {
static const char *sLevelParams[][5] = {
{ "", "", "", "", "" },
{ "None", "No Submarine, No Poles", "Submarine Only", "Poles Only", "Submarine And Poles" },
{ "None", "Water Level: Lowest", "Water Level: Low", "Water Level: High", "Water Level: Highest" },
{ "None", "Top Flooded", "Top Drained", "Top Flooded", "Top Drained" },
{ "None", "Clock Speed: Stopped", "Clock Speed: Slow", "Clock Speed: Fast", "Clock Speed: Random" },
};
switch (aLevel) {
case LEVEL_DDD: return sLevelParams[1][MIN(4, aIndex)];
case LEVEL_WDW: return sLevelParams[2][MIN(4, aIndex)];
case LEVEL_THI: return sLevelParams[3][MIN(4, aIndex)];
case LEVEL_TTC: return sLevelParams[4][MIN(4, aIndex)];
}
return sLevelParams[0][MIN(4, aIndex)];
}
// Called thrice
// Pass -1 to use the previous value (only once)
void DynOS_Warp_SetParam(s32 aLevel, s32 aIndex) {
static s32 sDynosWarpPrevParamIndex = -1;
if (aIndex == -1) {
aIndex = sDynosWarpPrevParamIndex;
sDynosWarpPrevParamIndex = -1;
} else {
sDynosWarpPrevParamIndex = aIndex;
}
switch (aLevel) {
case LEVEL_DDD:
switch (aIndex) {
case 1: gDDDBowsersSub = 0; gDDDPoles = 0; break;
case 2: gDDDBowsersSub = 1; gDDDPoles = 0; break;
case 3: gDDDBowsersSub = 0; gDDDPoles = 1; break;
case 4: gDDDBowsersSub = 1; gDDDPoles = 1; break;
}
break;
case LEVEL_WDW:
if (gEnvironmentRegions) {
switch (aIndex) {
case 1: gEnvironmentRegions[6] = *gEnvironmentLevels = 31; gWdwWaterLevelSet = 1; break;
case 2: gEnvironmentRegions[6] = *gEnvironmentLevels = 1024; gWdwWaterLevelSet = 1; break;
case 3: gEnvironmentRegions[6] = *gEnvironmentLevels = 1792; gWdwWaterLevelSet = 1; break;
case 4: gEnvironmentRegions[6] = *gEnvironmentLevels = 2816; gWdwWaterLevelSet = 1; break;
}
}
break;
case LEVEL_THI:
switch (aIndex) {
case 1: gTHIWaterDrained = 0; break;
case 2: gTHIWaterDrained = 1; break;
case 3: gTHIWaterDrained = 0; break;
case 4: gTHIWaterDrained = 1; break;
}
break;
case LEVEL_TTC:
switch (aIndex) {
case 1: gTTCSpeedSetting = TTC_SPEED_STOPPED; break;
case 2: gTTCSpeedSetting = TTC_SPEED_SLOW; break;
case 3: gTTCSpeedSetting = TTC_SPEED_FAST; break;
case 4: gTTCSpeedSetting = TTC_SPEED_RANDOM; break;
}
break;
}
}
//
// Update
//
static void *DynOS_Warp_UpdateWarp(void *aCmd, bool aIsLevelInitDone) {
static s32 sDynosWarpTargetArea = -1;
// Phase 1 - Clear the previous level and set up the new level
if (sDynosWarpTargetArea == -1) {
// Close the pause menu if it was open
optmenu_toggle();
level_set_transition(0, NULL);
gDialogBoxState = 0;
gMenuMode = -1;
// Cancel out every music/sound/sequence
for (u16 seqid = 0; seqid != SEQ_COUNT; ++seqid) {
stop_background_music(seqid);
}
play_shell_music();
stop_shell_music();
stop_cap_music();
func_80321080(0);
fadeout_music(0);
fadeout_level_music(0);
// Free everything from the current level
clear_objects();
clear_area_graph_nodes();
clear_areas();
main_pool_pop_state();
// Reset Mario's state
gMarioState->healCounter = 0;
gMarioState->hurtCounter = 0;
gMarioState->numCoins = 0;
gMarioState->input = 0;
gMarioState->controller->buttonPressed = 0;
gHudDisplay.coins = 0;
// Set up new level values
gCurrLevelNum = sDynosWarpLevelNum;
gCurrCourseNum = DynOS_Level_GetCourse(gCurrLevelNum);
gSavedCourseNum = gCurrCourseNum;
gCurrActNum = MAX(1, sDynosWarpActNum * (gCurrCourseNum <= COURSE_STAGES_MAX));
gDialogCourseActNum = gCurrActNum;
gCurrAreaIndex = sDynosWarpAreaNum;
gCurrActStarNum = sDynosWarpActNum;
#ifndef COOP
DynOS_Warp_SetParam(gCurrLevelNum, DynOS_Opt_GetValue("dynos_warp_param"));
#endif
sDynosWarpTargetArea = gCurrAreaIndex;
// Set up new level script
sWarpDest.type = 0;
sWarpDest.levelNum = 0;
sWarpDest.areaIdx = gCurrAreaIndex;
sWarpDest.nodeId = 0;
sWarpDest.arg = 0;
return (void *) DynOS_Level_GetScript(gCurrLevelNum);
} else {
// Phase 2 - Set Mario spawn info after the MARIO_POS command
if (*((u8 *) aCmd) == 0x2B) {
gMarioSpawnInfo->areaIndex = sDynosWarpTargetArea;
gCurrAreaIndex = sDynosWarpTargetArea;
}
// Phase 3 - End level initialization
if (aIsLevelInitDone) {
// Init Mario
s16 *_LevelEntryWarp = DynOS_Level_GetWarpEntry(gCurrLevelNum, gCurrAreaIndex);
s16 sDynosWarpSpawnType = sSpawnTypeFromWarpBhv[_LevelEntryWarp[2]];
gMarioSpawnInfo->startPos[0] = _LevelEntryWarp[3] + (sDynosWarpSpawnType == MARIO_SPAWN_DOOR_WARP) * 300.0f * sins(_LevelEntryWarp[6]);
gMarioSpawnInfo->startPos[1] = _LevelEntryWarp[4];
gMarioSpawnInfo->startPos[2] = _LevelEntryWarp[5] + (sDynosWarpSpawnType == MARIO_SPAWN_DOOR_WARP) * 300.0f * coss(_LevelEntryWarp[6]);
gMarioSpawnInfo->startAngle[0] = 0;
gMarioSpawnInfo->startAngle[1] = _LevelEntryWarp[6];
gMarioSpawnInfo->startAngle[2] = 0;
gMarioSpawnInfo->areaIndex = gCurrAreaIndex;
init_mario();
set_mario_initial_action(gMarioState, sDynosWarpSpawnType, 0);
#ifndef COOP
DynOS_Warp_SetParam(gCurrLevelNum, DynOS_Opt_GetValue("dynos_warp_param"));
#endif
// Init transition
reset_camera(gCurrentArea->camera);
init_camera(gCurrentArea->camera);
sDelayedWarpOp = WARP_OP_NONE;
switch (sDynosWarpSpawnType) {
case MARIO_SPAWN_UNKNOWN_03: play_transition(WARP_TRANSITION_FADE_FROM_STAR, 0x10, 0x00, 0x00, 0x00); break;
case MARIO_SPAWN_DOOR_WARP: play_transition(WARP_TRANSITION_FADE_FROM_CIRCLE, 0x10, 0x00, 0x00, 0x00); break;
case MARIO_SPAWN_TELEPORT: play_transition(WARP_TRANSITION_FADE_FROM_COLOR, 0x14, 0xFF, 0xFF, 0xFF); break;
case MARIO_SPAWN_SPIN_AIRBORNE: play_transition(WARP_TRANSITION_FADE_FROM_COLOR, 0x1A, 0xFF, 0xFF, 0xFF); break;
case MARIO_SPAWN_SPIN_AIRBORNE_CIRCLE: play_transition(WARP_TRANSITION_FADE_FROM_CIRCLE, 0x10, 0x00, 0x00, 0x00); break;
case MARIO_SPAWN_UNKNOWN_27: play_transition(WARP_TRANSITION_FADE_FROM_COLOR, 0x10, 0x00, 0x00, 0x00); break;
default: play_transition(WARP_TRANSITION_FADE_FROM_STAR, 0x10, 0x00, 0x00, 0x00); break;
}
// Set music
set_background_music(gCurrentArea->musicParam, gCurrentArea->musicParam2, 0);
if (gMarioState->flags & MARIO_METAL_CAP) play_cap_music(SEQUENCE_ARGS(4, SEQ_EVENT_METAL_CAP));
if (gMarioState->flags & MARIO_VANISH_CAP) play_cap_music(SEQUENCE_ARGS(4, SEQ_EVENT_POWERUP));
if (gMarioState->flags & MARIO_WING_CAP) play_cap_music(SEQUENCE_ARGS(4, SEQ_EVENT_POWERUP));
if (gCurrLevelNum == LEVEL_BOWSER_1 ||
gCurrLevelNum == LEVEL_BOWSER_2 ||
gCurrLevelNum == LEVEL_BOWSER_3) {
sound_banks_enable(0, 0xFFFF); // Bowser levels sound fix
}
// Reset values
sDynosWarpTargetArea = -1;
sDynosWarpLevelNum = -1;
sDynosWarpAreaNum = -1;
sDynosWarpActNum = -1;
}
}
// Reset DDD settings to default
if (gCurrCourseNum == COURSE_NONE) {
gDDDBowsersSub = -1;
gDDDPoles = -1;
}
return NULL;
}
static void DynOS_Warp_FindExitPosition(s16 &aPosX, s16 &aPosY, s16 &aPosZ, s16 aFYaw, f32 aDist) {
for (f32 _Dist = aDist; _Dist > 0.f; _Dist -= 10.f) {
f32 _PosX = (f32) aPosX + _Dist * sins(aFYaw + 0x8000);
f32 _PosZ = (f32) aPosZ + _Dist * coss(aFYaw + 0x8000);
for (f32 _DeltaY = 0.f; _DeltaY <= 5000.f; _DeltaY += 100.f) {
f32 _PosY = (f32) aPosY + _DeltaY;
struct Surface *_Floor;
f32 _FloorY = find_floor(_PosX, _PosY, _PosZ, &_Floor);
if (_Floor &&
_Floor->type != SURFACE_WARP &&
_Floor->type != SURFACE_BURNING &&
_Floor->type != SURFACE_DEATH_PLANE &&
_Floor->type != SURFACE_VERTICAL_WIND &&
_Floor->type != SURFACE_DEEP_QUICKSAND &&
_Floor->type != SURFACE_INSTANT_QUICKSAND &&
_Floor->type != SURFACE_INSTANT_MOVING_QUICKSAND) {
aPosX = _PosX;
aPosY = _FloorY;
aPosZ = _PosZ;
return;
}
}
}
}
static void *DynOS_Warp_UpdateExit(void *aCmd, bool aIsLevelInitDone) {
static s32 sDynosExitTargetArea = -1;
static s16 *sDynosExitTargetWarp = NULL;
// Phase 0 - Wait for the Mario head transition to end
if (sDynosExitTargetArea == -1 && DynOS_IsTransitionActive()) {
return NULL;
}
// Phase 1 - Clear the previous level and set up the new level
if (sDynosExitTargetArea == -1) {
// Bowser levels
if (sDynosExitLevelNum == LEVEL_BOWSER_1) sDynosExitLevelNum = LEVEL_BITDW;
if (sDynosExitLevelNum == LEVEL_BOWSER_2) sDynosExitLevelNum = LEVEL_BITFS;
if (sDynosExitLevelNum == LEVEL_BOWSER_3) sDynosExitLevelNum = LEVEL_BITS;
// Exit warp to Castle warp
// Uses the death warp, as it's the only warp that exists for every stage in the game
s16 *_ExitWarp = DynOS_Level_GetWarpDeath(sDynosExitLevelNum, sDynosExitAreaNum);
sDynosExitTargetWarp = DynOS_Level_GetWarp(_ExitWarp[7], _ExitWarp[8], _ExitWarp[9]);
// Free everything from the current level
clear_objects();
clear_area_graph_nodes();
clear_areas();
main_pool_pop_state();
// Reset Mario's state
gMarioState->healCounter = 0;
gMarioState->hurtCounter = 0;
gMarioState->numCoins = 0;
gMarioState->input = 0;
gMarioState->controller->buttonPressed = 0;
gHudDisplay.coins = 0;
// Set up new level values
gCurrLevelNum = _ExitWarp[7];
gCurrCourseNum = DynOS_Level_GetCourse(gCurrLevelNum);
gSavedCourseNum = gCurrCourseNum;
gDialogCourseActNum = gCurrActNum;
gCurrAreaIndex = _ExitWarp[8];
sDynosExitTargetArea = _ExitWarp[8];
// Set up new level script
sWarpDest.type = 0;
sWarpDest.levelNum = 0;
sWarpDest.areaIdx = gCurrAreaIndex;
sWarpDest.nodeId = 0;
sWarpDest.arg = 0;
return (void *) DynOS_Level_GetScript(gCurrLevelNum);
} else {
// Phase 2 - Set Mario spawn info after the MARIO_POS command
if (*((u8 *) aCmd) == 0x2B) {
gMarioSpawnInfo->areaIndex = sDynosExitTargetArea;
gCurrAreaIndex = sDynosExitTargetArea;
}
// Phase 3 - End level initialization
if (sDynosExitTargetWarp && aIsLevelInitDone) {
// Find target position
// Because of course, every hack has its own warp distances and orientations...
s16 _TargetPosX = sDynosExitTargetWarp[3];
s16 _TargetPosY = sDynosExitTargetWarp[4];
s16 _TargetPosZ = sDynosExitTargetWarp[5];
s16 _TargetFYaw = sDynosExitTargetWarp[6];
s16 _TargetDYaw = 0;
f32 _TargetDist = 500.f;
DynOS_Warp_FindExitPosition(_TargetPosX, _TargetPosY, _TargetPosZ, _TargetFYaw + _TargetDYaw, _TargetDist);
// Init Mario
gMarioSpawnInfo->startPos[0] = _TargetPosX;
gMarioSpawnInfo->startPos[1] = _TargetPosY;
gMarioSpawnInfo->startPos[2] = _TargetPosZ;
gMarioSpawnInfo->startAngle[0] = 0;
gMarioSpawnInfo->startAngle[1] = _TargetFYaw + _TargetDYaw;
gMarioSpawnInfo->startAngle[2] = 0;
gMarioSpawnInfo->areaIndex = gCurrAreaIndex;
init_mario();
set_mario_initial_action(gMarioState, MARIO_SPAWN_UNKNOWN_02, 0);
// Init transition
reset_camera(gCurrentArea->camera);
init_camera(gCurrentArea->camera);
sDelayedWarpOp = WARP_OP_NONE;
play_transition(WARP_TRANSITION_FADE_FROM_STAR, 15, 0x00, 0x00, 0x00);
play_sound(SOUND_MENU_MARIO_CASTLE_WARP, gGlobalSoundSource);
// Set music
set_background_music(gCurrentArea->musicParam, gCurrentArea->musicParam2, 0);
sDynosExitTargetWarp = NULL;
}
// Phase 4 - Unlock Mario as soon as the second transition is ended
if (!sDynosExitTargetWarp && !DynOS_IsTransitionActive()) {
sDynosExitTargetArea = -1;
sDynosExitLevelNum = -1;
sDynosExitAreaNum = -1;
}
}
return NULL;
}
void *DynOS_Warp_Update(void *aCmd, bool aIsLevelInitDone) {
// Level Exit
if (sDynosExitLevelNum != -1 &&
sDynosExitAreaNum != -1) {
return DynOS_Warp_UpdateExit(aCmd, aIsLevelInitDone);
}
// Level Warp
if (sDynosWarpLevelNum != -1 &&
sDynosWarpAreaNum != -1 &&
sDynosWarpActNum != -1) {
return DynOS_Warp_UpdateWarp(aCmd, aIsLevelInitDone);
}
return NULL;
}