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Shipwright/soh/soh/OTRGlobals.cpp

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#include "OTRGlobals.h"
#include <iostream>
#include <locale>
#include <codecvt>
#include "GlobalCtx2.h"
#include "GameSettings.h"
#include "ResourceMgr.h"
#include "DisplayList.h"
#include "PlayerAnimation.h"
#include "Skeleton.h"
#include "Window.h"
#include "z64animation.h"
#include "z64bgcheck.h"
#include "Enhancements/gameconsole.h"
#include <ultra64/gbi.h>
#include <Animation.h>
#ifdef _WIN32
#include <Windows.h>
#else
#include <time.h>
#endif
#include <Vertex.h>
#include <CollisionHeader.h>
#include <Array.h>
#include <Cutscene.h>
#include <Texture.h>
#include "Lib/stb/stb_image.h"
#include "AudioPlayer.h"
#include "Enhancements/debugconsole.h"
#include "Enhancements/debugger/debugger.h"
#include "Utils/BitConverter.h"
#include "variables.h"
#include "macros.h"
#include <Utils/StringHelper.h>
OTRGlobals* OTRGlobals::Instance;
static struct {
std::condition_variable cv_to_thread, cv_from_thread;
std::mutex mutex;
bool initialized;
bool processing;
} audio;
OTRGlobals::OTRGlobals() {
context = Ship::GlobalCtx2::CreateInstance("Ship of Harkinian");
context->GetWindow()->Init();
}
OTRGlobals::~OTRGlobals() {
}
extern uintptr_t clearMtx;
extern "C" Mtx gMtxClear;
extern "C" MtxF gMtxFClear;
extern "C" void OTRMessage_Init();
extern "C" void AudioMgr_CreateNextAudioBuffer(s16* samples, u32 num_samples);
extern "C" void AudioPlayer_Play(const uint8_t* buf, uint32_t len);
extern "C" int AudioPlayer_Buffered(void);
extern "C" int AudioPlayer_GetDesiredBuffered(void);
// C->C++ Bridge
extern "C" void InitOTR() {
OTRGlobals::Instance = new OTRGlobals();
auto t = OTRGlobals::Instance->context->GetResourceManager()->LoadFile("version");
if (!t->bHasLoadError)
{
//uint32_t gameVersion = BitConverter::ToUInt32BE((uint8_t*)t->buffer.get(), 0);
uint32_t gameVersion = *((uint32_t*)t->buffer.get());
OTRGlobals::Instance->context->GetResourceManager()->SetGameVersion(gameVersion);
}
clearMtx = (uintptr_t)&gMtxClear;
OTRMessage_Init();
DebugConsole_Init();
Debug_Init();
}
#ifdef _WIN32
extern "C" uint64_t GetFrequency() {
LARGE_INTEGER nFreq;
QueryPerformanceFrequency(&nFreq);
return nFreq.QuadPart;
}
extern "C" uint64_t GetPerfCounter() {
LARGE_INTEGER ticks;
QueryPerformanceCounter(&ticks);
return ticks.QuadPart;
}
#else
extern "C" uint64_t GetFrequency() {
return 1000; // sec -> ms
}
extern "C" uint64_t GetPerfCounter() {
struct timespec monotime;
clock_gettime(CLOCK_MONOTONIC, &monotime);
uint64_t remainingMs = (monotime.tv_nsec / 1000000);
// in milliseconds
return monotime.tv_sec * 1000 + remainingMs;
}
#endif
// C->C++ Bridge
extern "C" void Graph_ProcessFrame(void (*run_one_game_iter)(void)) {
OTRGlobals::Instance->context->GetWindow()->MainLoop(run_one_game_iter);
}
extern "C" void Graph_StartFrame() {
OTRGlobals::Instance->context->GetWindow()->StartFrame();
}
// C->C++ Bridge
extern "C" void Graph_ProcessGfxCommands(Gfx* commands) {
OTRGlobals::Instance->context->GetWindow()->SetFrameDivisor(R_UPDATE_RATE);
if (!audio.initialized) {
audio.initialized = true;
std::thread([]() {
for (;;) {
{
std::unique_lock<std::mutex> Lock(audio.mutex);
while (!audio.processing) {
audio.cv_to_thread.wait(Lock);
}
}
//AudioMgr_ThreadEntry(&gAudioMgr);
// 528 and 544 relate to 60 fps at 32 kHz 32000/60 = 533.333..
// in an ideal world, one third of the calls should use num_samples=544 and two thirds num_samples=528
#define SAMPLES_HIGH 560
#define SAMPLES_LOW 528
// PAL values
//#define SAMPLES_HIGH 656
//#define SAMPLES_LOW 624
#define AUDIO_FRAMES_PER_UPDATE (R_UPDATE_RATE > 0 ? R_UPDATE_RATE : 1 )
#define NUM_AUDIO_CHANNELS 2
int samples_left = AudioPlayer_Buffered();
u32 num_audio_samples = samples_left < AudioPlayer_GetDesiredBuffered() ? SAMPLES_HIGH : SAMPLES_LOW;
// printf("Audio samples: %d %u\n", samples_left, num_audio_samples);
// 3 is the maximum authentic frame divisor.
s16 audio_buffer[SAMPLES_HIGH * NUM_AUDIO_CHANNELS * 3];
for (int i = 0; i < AUDIO_FRAMES_PER_UPDATE; i++) {
AudioMgr_CreateNextAudioBuffer(audio_buffer + i * (num_audio_samples * NUM_AUDIO_CHANNELS), num_audio_samples);
}
//for (uint32_t i = 0; i < 2 * num_audio_samples; i++) {
// audio_buffer[i] = Rand_Next() & 0xFF;
//}
// printf("Audio samples before submitting: %d\n", audio_api->buffered());
AudioPlayer_Play((u8*)audio_buffer, num_audio_samples * (sizeof(int16_t) * NUM_AUDIO_CHANNELS * AUDIO_FRAMES_PER_UPDATE));
{
std::unique_lock<std::mutex> Lock(audio.mutex);
audio.processing = false;
}
audio.cv_from_thread.notify_one();
}
}).detach();
}
{
std::unique_lock<std::mutex> Lock(audio.mutex);
audio.processing = true;
}
audio.cv_to_thread.notify_one();
OTRGlobals::Instance->context->GetWindow()->RunCommands(commands);
{
std::unique_lock<std::mutex> Lock(audio.mutex);
while (audio.processing) {
audio.cv_from_thread.wait(Lock);
}
}
// OTRTODO: FIGURE OUT END FRAME POINT
/* if (OTRGlobals::Instance->context->GetWindow()->lastScancode != -1)
OTRGlobals::Instance->context->GetWindow()->lastScancode = -1;*/
}
float divisor_num = 0.0f;
extern "C" void OTRGetPixelDepthPrepare(float x, float y) {
OTRGlobals::Instance->context->GetWindow()->GetPixelDepthPrepare(x, y);
}
extern "C" uint16_t OTRGetPixelDepth(float x, float y) {
return OTRGlobals::Instance->context->GetWindow()->GetPixelDepth(x, y);
}
extern "C" int32_t OTRGetLastScancode()
{
return OTRGlobals::Instance->context->GetWindow()->lastScancode;
}
extern "C" void OTRResetScancode()
{
OTRGlobals::Instance->context->GetWindow()->lastScancode = -1;
}
extern "C" uint32_t ResourceMgr_GetGameVersion()
{
return OTRGlobals::Instance->context->GetResourceManager()->GetGameVersion();
}
extern "C" void ResourceMgr_CacheDirectory(const char* resName) {
OTRGlobals::Instance->context->GetResourceManager()->CacheDirectory(resName);
}
extern "C" void ResourceMgr_DirtyDirectory(const char* resName) {
OTRGlobals::Instance->context->GetResourceManager()->DirtyDirectory(resName);
}
extern "C" void ResourceMgr_InvalidateCache() {
OTRGlobals::Instance->context->GetResourceManager()->InvalidateResourceCache();
}
extern "C" void ResourceMgr_LoadFile(const char* resName) {
OTRGlobals::Instance->context->GetResourceManager()->LoadResource(resName);
}
extern "C" char* ResourceMgr_LoadFileRaw(const char* resName) {
return OTRGlobals::Instance->context->GetResourceManager()->LoadFile(resName)->buffer.get();
}
extern "C" char* ResourceMgr_LoadFileFromDisk(const char* filePath) {
FILE* file = fopen(filePath, "r");
fseek(file, 0, SEEK_END);
int fSize = ftell(file);
fseek(file, 0, SEEK_SET);
char* data = (char*)malloc(fSize);
fread(data, 1, fSize, file);
fclose(file);
return data;
}
extern "C" char* ResourceMgr_LoadJPEG(char* data, int dataSize)
{
static char* finalBuffer = 0;
if (finalBuffer == 0)
finalBuffer = (char*)malloc(dataSize);
int w;
int h;
int comp;
unsigned char* pixels = stbi_load_from_memory((const unsigned char*)data, 320 * 240 * 2, &w, &h, &comp, STBI_rgb_alpha);
//unsigned char* pixels = stbi_load_from_memory((const unsigned char*)data, 480 * 240 * 2, &w, &h, &comp, STBI_rgb_alpha);
int idx = 0;
for (int y = 0; y < h; y++)
{
for (int x = 0; x < w; x++)
{
uint16_t* bufferTest = (uint16_t*)finalBuffer;
int pixelIdx = ((y * w) + x) * 4;
uint8_t r = pixels[pixelIdx + 0] / 8;
uint8_t g = pixels[pixelIdx + 1] / 8;
uint8_t b = pixels[pixelIdx + 2] / 8;
uint8_t alphaBit = pixels[pixelIdx + 3] != 0;
uint16_t data = (r << 11) + (g << 6) + (b << 1) + alphaBit;
finalBuffer[idx++] = (data & 0xFF00) >> 8;
finalBuffer[idx++] = (data & 0x00FF);
}
}
return (char*)finalBuffer;
}
extern "C" char* ResourceMgr_LoadTexByName(const char* texPath);
extern "C" char* ResourceMgr_LoadTexOrDListByName(const char* filePath) {
auto res = OTRGlobals::Instance->context->GetResourceManager()->LoadResource(filePath);
if (res->resType == Ship::ResourceType::DisplayList)
return (char*)&((std::static_pointer_cast<Ship::DisplayList>(res))->instructions[0]);
else if (res->resType == Ship::ResourceType::Array)
return (char*)(std::static_pointer_cast<Ship::Array>(res))->vertices.data();
else
return ResourceMgr_LoadTexByName(filePath);
}
extern "C" char* ResourceMgr_LoadPlayerAnimByName(const char* animPath) {
auto anim = std::static_pointer_cast<Ship::PlayerAnimation>(
OTRGlobals::Instance->context->GetResourceManager()->LoadResource(animPath));
return (char*)&anim->limbRotData[0];
}
extern "C" Gfx* ResourceMgr_LoadGfxByName(const char* path)
{
auto res = std::static_pointer_cast<Ship::DisplayList>(
OTRGlobals::Instance->context->GetResourceManager()->LoadResource(path));
return (Gfx*)&res->instructions[0];
}
extern "C" Gfx* ResourceMgr_PatchGfxByName(const char* path, int size) {
auto res = std::static_pointer_cast<Ship::DisplayList>(
OTRGlobals::Instance->context->GetResourceManager()->LoadResource(path));
res->instructions.resize(res->instructions.size() + size);
return (Gfx*)&res->instructions[0];
}
extern "C" char* ResourceMgr_LoadArrayByName(const char* path)
{
auto res = std::static_pointer_cast<Ship::Array>(OTRGlobals::Instance->context->GetResourceManager()->LoadResource(path));
return (char*)res->scalars.data();
}
extern "C" char* ResourceMgr_LoadArrayByNameAsVec3s(const char* path) {
auto res =
std::static_pointer_cast<Ship::Array>(OTRGlobals::Instance->context->GetResourceManager()->LoadResource(path));
if (res->cachedGameAsset != nullptr)
return (char*)res->cachedGameAsset;
else
{
Vec3s* data = (Vec3s*)malloc(sizeof(Vec3s) * res->scalars.size());
for (int i = 0; i < res->scalars.size(); i += 3) {
data[(i / 3)].x = res->scalars[i + 0].s16;
data[(i / 3)].y = res->scalars[i + 1].s16;
data[(i / 3)].z = res->scalars[i + 2].s16;
}
res->cachedGameAsset = data;
return (char*)data;
}
}
extern "C" CollisionHeader* ResourceMgr_LoadColByName(const char* path)
{
auto colRes = std::static_pointer_cast<Ship::CollisionHeader>(OTRGlobals::Instance->context->GetResourceManager()->LoadResource(path));
if (colRes->cachedGameAsset != nullptr)
return (CollisionHeader*)colRes->cachedGameAsset;
CollisionHeader* colHeader = (CollisionHeader*)malloc(sizeof(CollisionHeader));
colHeader->minBounds.x = colRes->absMinX;
colHeader->minBounds.y = colRes->absMinY;
colHeader->minBounds.z = colRes->absMinZ;
colHeader->maxBounds.x = colRes->absMaxX;
colHeader->maxBounds.y = colRes->absMaxY;
colHeader->maxBounds.z = colRes->absMaxZ;
colHeader->vtxList = (Vec3s*)malloc(sizeof(Vec3s) * colRes->vertices.size());
colHeader->numVertices = colRes->vertices.size();
for (int i = 0; i < colRes->vertices.size(); i++)
{
colHeader->vtxList[i].x = colRes->vertices[i].x;
colHeader->vtxList[i].y = colRes->vertices[i].y;
colHeader->vtxList[i].z = colRes->vertices[i].z;
}
colHeader->polyList = (CollisionPoly*)malloc(sizeof(CollisionPoly) * colRes->polygons.size());
colHeader->numPolygons = colRes->polygons.size();
for (int i = 0; i < colRes->polygons.size(); i++)
{
colHeader->polyList[i].type = colRes->polygons[i].type;
colHeader->polyList[i].flags_vIA = colRes->polygons[i].vtxA;
colHeader->polyList[i].flags_vIB = colRes->polygons[i].vtxB;
colHeader->polyList[i].vIC = colRes->polygons[i].vtxC;
colHeader->polyList[i].normal.x = colRes->polygons[i].a;
colHeader->polyList[i].normal.y = colRes->polygons[i].b;
colHeader->polyList[i].normal.z = colRes->polygons[i].c;
colHeader->polyList[i].dist = colRes->polygons[i].d;
}
colHeader->surfaceTypeList = (SurfaceType*)malloc(colRes->polygonTypes.size() * sizeof(SurfaceType));
for (int i = 0; i < colRes->polygonTypes.size(); i++)
{
colHeader->surfaceTypeList[i].data[0] = colRes->polygonTypes[i] >> 32;
colHeader->surfaceTypeList[i].data[1] = colRes->polygonTypes[i] & 0xFFFFFFFF;
}
colHeader->cameraDataList = (CamData*)malloc(sizeof(CamData) * colRes->camData->entries.size());
for (int i = 0; i < colRes->camData->entries.size(); i++)
{
colHeader->cameraDataList[i].cameraSType = colRes->camData->entries[i]->cameraSType;
colHeader->cameraDataList[i].numCameras = colRes->camData->entries[i]->numData;
int idx = colRes->camData->entries[i]->cameraPosDataIdx;
colHeader->cameraDataList[i].camPosData = (Vec3s*)malloc(sizeof(Vec3s));
if (colRes->camData->cameraPositionData.size() > 0)
{
colHeader->cameraDataList[i].camPosData->x = colRes->camData->cameraPositionData[idx]->x;
colHeader->cameraDataList[i].camPosData->y = colRes->camData->cameraPositionData[idx]->y;
colHeader->cameraDataList[i].camPosData->z = colRes->camData->cameraPositionData[idx]->z;
}
else
{
colHeader->cameraDataList[i].camPosData->x = 0;
colHeader->cameraDataList[i].camPosData->y = 0;
colHeader->cameraDataList[i].camPosData->z = 0;
}
}
colHeader->numWaterBoxes = colRes->waterBoxes.size();
colHeader->waterBoxes = (WaterBox*)malloc(sizeof(WaterBox) * colHeader->numWaterBoxes);
for (int i = 0; i < colHeader->numWaterBoxes; i++)
{
colHeader->waterBoxes[i].xLength = colRes->waterBoxes[i].xLength;
colHeader->waterBoxes[i].ySurface = colRes->waterBoxes[i].ySurface;
colHeader->waterBoxes[i].xMin = colRes->waterBoxes[i].xMin;
colHeader->waterBoxes[i].zMin = colRes->waterBoxes[i].zMin;
colHeader->waterBoxes[i].xLength = colRes->waterBoxes[i].xLength;
colHeader->waterBoxes[i].zLength = colRes->waterBoxes[i].zLength;
colHeader->waterBoxes[i].properties = colRes->waterBoxes[i].properties;
}
colRes->cachedGameAsset = colHeader;
return (CollisionHeader*)colHeader;
}
extern "C" Vtx * ResourceMgr_LoadVtxByName(const char* path)
{
auto res = std::static_pointer_cast<Ship::Array>(OTRGlobals::Instance->context->GetResourceManager()->LoadResource(path));
return (Vtx*)res->vertices.data();
}
extern "C" int ResourceMgr_OTRSigCheck(char* imgData)
{
uintptr_t i = (uintptr_t)(imgData);
if (i == 0xD9000000 || i == 0xE7000000 || (i & 1) == 1)
return 0;
if ((i & 0xFF000000) != 0xAB000000 && (i & 0xFF000000) != 0xCD000000 && i != 0) {
if (imgData[0] == '_' && imgData[1] == '_' && imgData[2] == 'O' && imgData[3] == 'T' && imgData[4] == 'R' &&
imgData[5] == '_' && imgData[6] == '_')
return 1;
}
return 0;
}
extern "C" AnimationHeaderCommon* ResourceMgr_LoadAnimByName(const char* path) {
auto res = std::static_pointer_cast<Ship::Animation>(
OTRGlobals::Instance->context->GetResourceManager()->LoadResource(path));
if (res->cachedGameAsset != nullptr)
return (AnimationHeaderCommon*)res->cachedGameAsset;
AnimationHeaderCommon* anim = nullptr;
if (res->type == Ship::AnimationType::Normal) {
AnimationHeader* animNormal = (AnimationHeader*)malloc(sizeof(AnimationHeader));
animNormal->common.frameCount = res->frameCount;
animNormal->frameData = (int16_t*)malloc(res->rotationValues.size() * sizeof(int16_t));
for (int i = 0; i < res->rotationValues.size(); i++)
animNormal->frameData[i] = res->rotationValues[i];
animNormal->jointIndices = (JointIndex*)malloc(res->rotationIndices.size() * sizeof(Vec3s));
for (int i = 0; i < res->rotationIndices.size(); i++) {
animNormal->jointIndices[i].x = res->rotationIndices[i].x;
animNormal->jointIndices[i].y = res->rotationIndices[i].y;
animNormal->jointIndices[i].z = res->rotationIndices[i].z;
}
animNormal->staticIndexMax = res->limit;
anim = (AnimationHeaderCommon*)animNormal;
}
else if (res->type == Ship::AnimationType::Curve)
{
TransformUpdateIndex* animCurve = (TransformUpdateIndex*)malloc(sizeof(TransformUpdateIndex));
animCurve->copyValues = (s16*)malloc(res->copyValuesArr.size() * sizeof(s16));
for (int i = 0; i < res->copyValuesArr.size(); i++)
animCurve->copyValues[i] = res->copyValuesArr[i];
animCurve->transformData = (TransformData*)malloc(res->transformDataArr.size() * sizeof(TransformData));
for (int i = 0; i < res->transformDataArr.size(); i++)
{
animCurve->transformData[i].unk_00 = res->transformDataArr[i].unk_00;
animCurve->transformData[i].unk_02 = res->transformDataArr[i].unk_02;
animCurve->transformData[i].unk_04 = res->transformDataArr[i].unk_04;
animCurve->transformData[i].unk_06 = res->transformDataArr[i].unk_06;
animCurve->transformData[i].unk_08 = res->transformDataArr[i].unk_08;
}
animCurve->refIndex = (u8*)malloc(res->refIndexArr.size());
for (int i = 0; i < res->refIndexArr.size(); i++)
animCurve->refIndex[i] = res->refIndexArr[i];
anim = (AnimationHeaderCommon*)animCurve;
}
else {
LinkAnimationHeader* animLink = (LinkAnimationHeader*)malloc(sizeof(LinkAnimationHeader));
animLink->common.frameCount = res->frameCount;
animLink->segment = (void*)res->segPtr;
anim = (AnimationHeaderCommon*)animLink;
}
res->cachedGameAsset = anim;
return anim;
}
extern "C" SkeletonHeader* ResourceMgr_LoadSkeletonByName(const char* path) {
auto res = std::static_pointer_cast<Ship::Skeleton>(OTRGlobals::Instance->context->GetResourceManager()->LoadResource(path));
if (res->cachedGameAsset != nullptr)
return (SkeletonHeader*)res->cachedGameAsset;
SkeletonHeader* baseHeader = nullptr;
if (res->type == Ship::SkeletonType::Normal)
{
baseHeader = (SkeletonHeader*)malloc(sizeof(SkeletonHeader));
}
else if (res->type == Ship::SkeletonType::Curve)
{
SkelCurveLimbList* curve = (SkelCurveLimbList*)malloc(sizeof(SkelCurveLimbList));
curve->limbCount = res->limbCount;
curve->limbs = (SkelCurveLimb**)malloc(res->limbCount * sizeof(SkelCurveLimb*));
baseHeader = (SkeletonHeader*)curve;
}
else {
FlexSkeletonHeader* flex = (FlexSkeletonHeader*)malloc(sizeof(FlexSkeletonHeader));
flex->dListCount = res->dListCount;
baseHeader = (SkeletonHeader*)flex;
}
if (res->type != Ship::SkeletonType::Curve)
{
baseHeader->limbCount = res->limbCount;
baseHeader->segment = (void**)malloc(sizeof(StandardLimb*) * res->limbTable.size());
}
for (int i = 0; i < res->limbTable.size(); i++) {
std::string limbStr = res->limbTable[i];
auto limb = std::static_pointer_cast<Ship::SkeletonLimb>(
OTRGlobals::Instance->context->GetResourceManager()->LoadResource(limbStr.c_str()));
if (limb->limbType == Ship::LimbType::LOD) {
LodLimb* limbC = (LodLimb*)malloc(sizeof(LodLimb));
limbC->jointPos.x = limb->transX;
limbC->jointPos.y = limb->transY;
limbC->jointPos.z = limb->transZ;
limbC->child = limb->childIndex;
limbC->sibling = limb->siblingIndex;
if (limb->dListPtr != "") {
auto dList = ResourceMgr_LoadGfxByName(limb->dListPtr.c_str());
limbC->dLists[0] = dList;
} else {
limbC->dLists[0] = nullptr;
}
if (limb->dList2Ptr != "") {
auto dList = ResourceMgr_LoadGfxByName(limb->dList2Ptr.c_str());
limbC->dLists[1] = dList;
} else {
limbC->dLists[1] = nullptr;
}
baseHeader->segment[i] = limbC;
}
else if (limb->limbType == Ship::LimbType::Standard)
{
const auto limbC = new StandardLimb;
limbC->jointPos.x = limb->transX;
limbC->jointPos.y = limb->transY;
limbC->jointPos.z = limb->transZ;
limbC->child = limb->childIndex;
limbC->sibling = limb->siblingIndex;
limbC->dList = nullptr;
if (!limb->dListPtr.empty()) {
const auto dList = ResourceMgr_LoadGfxByName(limb->dListPtr.c_str());
limbC->dList = dList;
}
baseHeader->segment[i] = limbC;
}
else if (limb->limbType == Ship::LimbType::Curve)
{
const auto limbC = new SkelCurveLimb;
limbC->firstChildIdx = limb->childIndex;
limbC->nextLimbIdx = limb->siblingIndex;
limbC->dList[0] = nullptr;
limbC->dList[1] = nullptr;
if (!limb->dListPtr.empty()) {
const auto dList = ResourceMgr_LoadGfxByName(limb->dListPtr.c_str());
limbC->dList[0] = dList;
}
if (!limb->dList2Ptr.empty()) {
const auto dList = ResourceMgr_LoadGfxByName(limb->dList2Ptr.c_str());
limbC->dList[1] = dList;
}
const auto curve = reinterpret_cast<SkelCurveLimbList*>(baseHeader);
curve->limbs[i] = limbC;
}
else if (limb->limbType == Ship::LimbType::Skin)
{
const auto limbC = new SkinLimb;
limbC->jointPos.x = limb->transX;
limbC->jointPos.y = limb->transY;
limbC->jointPos.z = limb->transZ;
limbC->child = limb->childIndex;
limbC->sibling = limb->siblingIndex;
if (limb->skinSegmentType == Ship::ZLimbSkinType::SkinType_DList)
limbC->segmentType = static_cast<int32_t>(limb->skinSegmentType);
else if (limb->skinSegmentType == Ship::ZLimbSkinType::SkinType_4)
limbC->segmentType = 4;
else if (limb->skinSegmentType == Ship::ZLimbSkinType::SkinType_5)
limbC->segmentType = 5;
else
limbC->segmentType = 0;
if (limb->skinSegmentType == Ship::ZLimbSkinType::SkinType_DList)
limbC->segment = ResourceMgr_LoadGfxByName(limb->skinDList.c_str());
else if (limb->skinSegmentType == Ship::ZLimbSkinType::SkinType_4) {
const auto animData = new SkinAnimatedLimbData;
const int skinDataSize = limb->skinData.size();
animData->totalVtxCount = limb->skinVtxCnt;
animData->limbModifCount = skinDataSize;
animData->limbModifications = new SkinLimbModif[animData->limbModifCount];
animData->dlist = ResourceMgr_LoadGfxByName(limb->skinDList2.c_str());
for (int i = 0; i < skinDataSize; i++)
{
animData->limbModifications[i].vtxCount = limb->skinData[i].unk_8_arr.size();
animData->limbModifications[i].transformCount = limb->skinData[i].unk_C_arr.size();
animData->limbModifications[i].unk_4 = limb->skinData[i].unk_4;
animData->limbModifications[i].skinVertices = new SkinVertex[limb->skinData[i].unk_8_arr.size()];
for (int k = 0; k < limb->skinData[i].unk_8_arr.size(); k++)
{
animData->limbModifications[i].skinVertices[k].index = limb->skinData[i].unk_8_arr[k].unk_0;
animData->limbModifications[i].skinVertices[k].s = limb->skinData[i].unk_8_arr[k].unk_2;
animData->limbModifications[i].skinVertices[k].t = limb->skinData[i].unk_8_arr[k].unk_4;
animData->limbModifications[i].skinVertices[k].normX = limb->skinData[i].unk_8_arr[k].unk_6;
animData->limbModifications[i].skinVertices[k].normY = limb->skinData[i].unk_8_arr[k].unk_7;
animData->limbModifications[i].skinVertices[k].normZ = limb->skinData[i].unk_8_arr[k].unk_8;
animData->limbModifications[i].skinVertices[k].alpha = limb->skinData[i].unk_8_arr[k].unk_9;
}
animData->limbModifications[i].limbTransformations =
new SkinTransformation[limb->skinData[i].unk_C_arr.size()];
for (int k = 0; k < limb->skinData[i].unk_C_arr.size(); k++)
{
animData->limbModifications[i].limbTransformations[k].limbIndex = limb->skinData[i].unk_C_arr[k].unk_0;
animData->limbModifications[i].limbTransformations[k].x = limb->skinData[i].unk_C_arr[k].x;
animData->limbModifications[i].limbTransformations[k].y = limb->skinData[i].unk_C_arr[k].y;
animData->limbModifications[i].limbTransformations[k].z = limb->skinData[i].unk_C_arr[k].z;
animData->limbModifications[i].limbTransformations[k].scale = limb->skinData[i].unk_C_arr[k].unk_8;
}
}
limbC->segment = animData;
//limbC->segment = nullptr;
}
/*if (limb->dListPtr != "") {
auto dList = ResourceMgr_LoadGfxByName((char*)limb->dListPtr.c_str());
limbC->unk_8 = dList;
}
else {
limbC->unk_8 = nullptr;
}*/
baseHeader->segment[i] = limbC;
}
else
{
// OTRTODO: Print error here...
}
}
res->cachedGameAsset = baseHeader;
return baseHeader;
}
extern "C" s32* ResourceMgr_LoadCSByName(const char* path)
{
auto res = std::static_pointer_cast<Ship::Cutscene>(OTRGlobals::Instance->context->GetResourceManager()->LoadResource(path));
return (s32*)res->commands.data();
}
std::wstring StringToU16(const std::string& s) {
std::vector<unsigned long> result;
size_t i = 0;
while (i < s.size()) {
unsigned long uni;
size_t nbytes;
bool error = false;
unsigned char c = s[i++];
if (c < 0x80) { // ascii
uni = c;
nbytes = 0;
} else if (c <= 0xBF) { // assuming kata/hiragana delimiter
nbytes = 0;
uni = '\1';
} else if (c <= 0xDF) {
uni = c & 0x1F;
nbytes = 1;
} else if (c <= 0xEF) {
uni = c & 0x0F;
nbytes = 2;
} else if (c <= 0xF7) {
uni = c & 0x07;
nbytes = 3;
}
for (size_t j = 0; j < nbytes; ++j) {
unsigned char c = s[i++];
uni <<= 6;
uni += c & 0x3F;
}
if (uni != '\1')
result.push_back(uni);
}
std::wstring utf16;
for (size_t i = 0; i < result.size(); ++i) {
unsigned long uni = result[i];
if (uni <= 0xFFFF) {
utf16 += (wchar_t)uni;
} else {
uni -= 0x10000;
utf16 += (wchar_t)((uni >> 10) + 0xD800);
utf16 += (wchar_t)((uni & 0x3FF) + 0xDC00);
}
}
return utf16;
}
extern "C" void OTRGfxPrint(const char* str, void* printer, void (*printImpl)(void*, char)) {
const std::vector<uint32_t> hira1 = {
u'', u'', u'', u'', u'', u'', u'', u'', u'', u'', u'-', u'', u'',
u'', u'', u'', u'', u'', u'', u'', u'', u'', u'', u'', u'', u'',
};
const std::vector<uint32_t> hira2 = {
u'', u'', u'', u'', u'', u'', u'', u'', u'', u'', u'', u'', u'', u'', u'', u'',
u'', u'', u'', u'', u'', u'', u'', u'', u'', u'', u'', u'', u'', u'', u'', u'',
};
std::wstring wstr = StringToU16(str);
for (const auto& c : wstr) {
unsigned char convt = ' ';
if (c < 0x80) {
printImpl(printer, c);
} else if (c >= u'' && c <= u'') { // katakana
printImpl(printer, c - 0xFEC0);
} else {
auto it = std::find(hira1.begin(), hira1.end(), c);
if (it != hira1.end()) { // hiragana block 1
printImpl(printer, 0x88 + std::distance(hira1.begin(), it));
}
auto it2 = std::find(hira2.begin(), hira2.end(), c);
if (it2 != hira2.end()) { // hiragana block 2
printImpl(printer, 0xe0 + std::distance(hira2.begin(), it2));
}
}
}
}
extern "C" uint32_t OTRGetCurrentWidth() {
return OTRGlobals::Instance->context->GetWindow()->GetCurrentWidth();
}
extern "C" uint32_t OTRGetCurrentHeight() {
return OTRGlobals::Instance->context->GetWindow()->GetCurrentHeight();
}
extern "C" void OTRControllerCallback(ControllerCallback* controller) {
auto controllers = OTRGlobals::Instance->context->GetWindow()->Controllers;
for (int i = 0; i < controllers.size(); i++) {
for (int j = 0; j < controllers[i].size(); j++) {
OTRGlobals::Instance->context->GetWindow()->Controllers[i][j]->WriteToSource(controller);
}
}
}
extern "C" float OTRGetAspectRatio() {
return gfx_current_dimensions.aspect_ratio;
}
extern "C" float OTRGetDimensionFromLeftEdge(float v) {
return (SCREEN_WIDTH / 2 - SCREEN_HEIGHT / 2 * OTRGetAspectRatio() + (v));
}
extern "C" float OTRGetDimensionFromRightEdge(float v) {
return (SCREEN_WIDTH / 2 + SCREEN_HEIGHT / 2 * OTRGetAspectRatio() - (SCREEN_WIDTH - v));
}
f32 floorf(f32 x);
f32 ceilf(f32 x);
extern "C" int16_t OTRGetRectDimensionFromLeftEdge(float v) {
return ((int)floorf(OTRGetDimensionFromLeftEdge(v)));
}
extern "C" int16_t OTRGetRectDimensionFromRightEdge(float v) {
return ((int)ceilf(OTRGetDimensionFromRightEdge(v)));
}
extern "C" void bswapSoundFontSound(SoundFontSound* swappable) {
swappable->sample = (SoundFontSample*)BOMSWAP32((u32)swappable->sample);
swappable->tuningAsU32 = BOMSWAP32((u32)swappable->tuningAsU32);
}
extern "C" void bswapDrum(Drum* swappable) {
bswapSoundFontSound(&swappable->sound);
swappable->envelope = (AdsrEnvelope*)BOMSWAP32((u32)swappable->envelope);
}
extern "C" void bswapInstrument(Instrument* swappable) {
swappable->envelope = (AdsrEnvelope*)BOMSWAP32((u32)swappable->envelope);
bswapSoundFontSound(&swappable->lowNotesSound);
bswapSoundFontSound(&swappable->normalNotesSound);
bswapSoundFontSound(&swappable->highNotesSound);
}
extern "C" void bswapSoundFontSample(SoundFontSample* swappable) {
u32 origBitfield = BOMSWAP32(swappable->asU32);
swappable->codec = (origBitfield >> 28) & 0x0F;
swappable->medium = (origBitfield >> 24) & 0x03;
swappable->unk_bit26 = (origBitfield >> 22) & 0x01;
swappable->unk_bit25 = (origBitfield >> 21) & 0x01;
swappable->size = (origBitfield) & 0x00FFFFFF;
swappable->sampleAddr = (u8*)BOMSWAP32((u32)swappable->sampleAddr);
swappable->loop = (AdpcmLoop*)BOMSWAP32((u32)swappable->loop);
swappable->book = (AdpcmBook*)BOMSWAP32((u32)swappable->book);
}
extern "C" void bswapAdpcmLoop(AdpcmLoop* swappable) {
swappable->start = (u32)BOMSWAP32((u32)swappable->start);
swappable->end = (u32)BOMSWAP32((u32)swappable->end);
swappable->count = (u32)BOMSWAP32((u32)swappable->count);
if (swappable->count != 0) {
for (int i = 0; i < 16; i++) {
swappable->state[i] = (s16)BOMSWAP16(swappable->state[i]);
}
}
}
extern "C" void bswapAdpcmBook(AdpcmBook* swappable) {
swappable->order = (u32)BOMSWAP32((u32)swappable->order);
swappable->npredictors = (u32)BOMSWAP32((u32)swappable->npredictors);
for (int i = 0; i < swappable->npredictors * swappable->order * sizeof(s16) * 4; i++)
swappable->book[i] = (s16)BOMSWAP16(swappable->book[i]);
}
extern "C" bool AudioPlayer_Init(void) {
if (OTRGlobals::Instance->context->GetWindow()->GetAudioPlayer() != nullptr) {
return OTRGlobals::Instance->context->GetWindow()->GetAudioPlayer()->Init();
}
return false;
}
extern "C" int AudioPlayer_Buffered(void) {
if (OTRGlobals::Instance->context->GetWindow()->GetAudioPlayer() != nullptr) {
return OTRGlobals::Instance->context->GetWindow()->GetAudioPlayer()->Buffered();
}
}
extern "C" int AudioPlayer_GetDesiredBuffered(void) {
if (OTRGlobals::Instance->context->GetWindow()->GetAudioPlayer() != nullptr) {
return OTRGlobals::Instance->context->GetWindow()->GetAudioPlayer()->GetDesiredBuffered();
}
}
extern "C" void AudioPlayer_Play(const uint8_t* buf, uint32_t len) {
if (OTRGlobals::Instance->context->GetWindow()->GetAudioPlayer() != nullptr) {
OTRGlobals::Instance->context->GetWindow()->GetAudioPlayer()->Play(buf, len);
}
}
extern "C" int Controller_ShouldRumble(size_t i) {
for (const auto& controller : Ship::Window::Controllers.at(i))
{
float rumble_strength = CVar_GetFloat(StringHelper::Sprintf("gCont%i_RumbleStrength", i).c_str(), 1.0f);
if (controller->CanRumble() && rumble_strength > 0.001f) {
return 1;
}
}
return 0;
}
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