lib: start re-weaving implementation

This commit is contained in:
itsmattkc 2022-07-11 14:19:36 -07:00
parent 4d05dc8ac8
commit 7968e70031
6 changed files with 203 additions and 11 deletions

View file

@ -65,7 +65,7 @@ void Core::DeleteChildren()
}
}
size_t Core::IndexOfChild(Core *chunk)
size_t Core::IndexOfChild(Core *chunk) const
{
return std::find(children_.begin(), children_.end(), chunk) - children_.begin();
}

View file

@ -21,11 +21,12 @@ public:
bool FindParent(Core *p) const;
LIBWEAVER_EXPORT void AppendChild(Core *Core);
LIBWEAVER_EXPORT bool RemoveChild(Core *Core);
LIBWEAVER_EXPORT size_t IndexOfChild(Core *Core);
LIBWEAVER_EXPORT void InsertChild(size_t index, Core *Core);
LIBWEAVER_EXPORT Core *RemoveChild(size_t index);
void AppendChild(Core *Core);
bool RemoveChild(Core *Core);
void InsertChild(size_t index, Core *Core);
Core *RemoveChild(size_t index);
LIBWEAVER_EXPORT size_t IndexOfChild(Core *Core) const;
LIBWEAVER_EXPORT Core *GetChildAt(size_t index) const { return children_.at(index); }
LIBWEAVER_EXPORT size_t GetChildCount() const { return children_.size(); }
LIBWEAVER_EXPORT bool HasChildren() const { return !children_.empty(); }

View file

@ -46,14 +46,139 @@ bool Interleaf::Parse(Chunk *riff)
return false;
}
} else {
//Object *nullobj = new Object();
//AppendChild(nullobj);
Object *nullobj = new Object();
AppendChild(nullobj);
}
}
return true;
}
struct ChunkStatus {
ChunkStatus()
{
index = 0;
time = 0;
}
size_t index;
uint32_t time;
};
Chunk *Interleaf::Export() const
{
Chunk *riff = new Chunk(Chunk::TYPE_RIFF);
riff->data("Format") = RIFF::OMNI;
Chunk *mxhd = new Chunk(Chunk::TYPE_MxHd);
mxhd->data("Version") = version_;
mxhd->data("BufferSize") = buffer_size_;
mxhd->data("BufferCount") = buffer_count_;
riff->AppendChild(mxhd);
Chunk *mxof = new Chunk(Chunk::TYPE_MxOf);
// FIXME: This appears to not always be correct, sometimes an MxOf with only one entry will have
// a count of 3, seemingly due to embedded objects (e.g. a movie with an SMK + WAV)?
uint32_t obj_count = this->GetChildCount();
for (Children::const_iterator it=GetChildren().begin(); it!=GetChildren().end(); it++) {
Object *obj = static_cast<Object*>(*it);
obj_count += obj->GetChildCount();
}
mxof->data("Count") = obj_count;
// This however is correct.
mxof->data("Offsets") = bytearray(this->GetChildCount() * sizeof(uint32_t));
riff->AppendChild(mxof);
Chunk *list = new Chunk(Chunk::TYPE_LIST);
list->data("Format") = Chunk::TYPE_MxSt;
riff->AppendChild(list);
for (Children::const_iterator it=GetChildren().begin(); it!=GetChildren().end(); it++) {
Chunk *mxst = new Chunk(Chunk::TYPE_MxSt);
list->AppendChild(mxst);
Object *obj = static_cast<Object*>(*it);
Chunk *mxob = obj->Export();
mxst->AppendChild(mxob);
Chunk *chunklst = new Chunk(Chunk::TYPE_LIST);
chunklst->data("Format") = Chunk::TYPE_MxDa;
mxst->AppendChild(chunklst);
// First, interleave all headers (first chunk)
for (ssize_t i=-1; i<ssize_t(obj->GetChildCount()); i++) {
Object *working_obj = static_cast<Object*>((i == -1) ? obj : obj->GetChildAt(i));
if (!working_obj->data().empty()) {
const bytearray &data = working_obj->data().front();
Chunk *mxch = new Chunk(Chunk::TYPE_MxCh);
mxch->data("Flags") = 0;
mxch->data("Object") = working_obj->id();
mxch->data("Time") = 0;
mxch->data("DataSize") = data.size();
mxch->data("Data") = data;
chunklst->AppendChild(mxch);
}
}
// Next, interleave everything by time
std::vector<ChunkStatus> chunk_status(obj->GetChildCount() + 1);
bool all_done;
do {
all_done = true;
for (ssize_t i=-1; i<ssize_t(obj->GetChildCount()); i++) {
Object *working_obj = static_cast<Object*>((i == -1) ? obj : obj->GetChildAt(i));
ChunkStatus &status = chunk_status[i+1];
if (status.index < working_obj->data().size()) {
const bytearray &data = working_obj->data().at(status.index);
all_done = false;
Chunk *mxch = new Chunk(Chunk::TYPE_MxCh);
mxch->data("Flags") = 0;
mxch->data("Object") = working_obj->id();
mxch->data("Time") = status.time;
mxch->data("DataSize") = data.size();
mxch->data("Data") = data;
chunklst->AppendChild(mxch);
status.index++;
// Increment time
switch (working_obj->filetype()) {
case MxOb::WAV:
status.time += 1000;
break;
case MxOb::STL:
// Unaffected by time
break;
}
}
}
} while (!all_done);
// Finally interleave end chunks
for (ssize_t i=obj->GetChildCount()-1; i>=-1; i--) {
Object *working_obj = static_cast<Object*>((i == -1) ? obj : obj->GetChildAt(i));
ChunkStatus &status = chunk_status[i+1];
Chunk *mxch = new Chunk(Chunk::TYPE_MxCh);
mxch->data("Flags") = MxCh::FLAG_END;
mxch->data("Object") = working_obj->id();
mxch->data("Time") = status.time;
mxch->data("DataSize") = 0;
chunklst->AppendChild(mxch);
}
}
// FIXME: Fill in MxOf table
// FIXME: Split MxCh chunks over alignment
return riff;
}
bool Interleaf::ParseStream(Chunk *chunk)
{
if (chunk->type() != Chunk::TYPE_MxSt) {
@ -77,13 +202,32 @@ bool Interleaf::ParseStream(Chunk *chunk)
typedef std::map<uint32_t, Object::ChunkedData> ChunkMap;
ChunkMap data;
uint32_t joining_chunk = 0;
for (Children::const_iterator it=list->GetChildren().begin(); it!=list->GetChildren().end(); it++) {
Chunk *mxch = static_cast<Chunk*>(*it);
if (mxch->id() == Chunk::TYPE_pad_) {
// Ignore this chunk
} else if (mxch->id() == Chunk::TYPE_MxCh) {
uint32_t obj_id = mxch->data("Object");
data[obj_id].push_back(mxch->data("Data"));
uint16_t flags = mxch->data("Flags");
if (!(flags & MxCh::FLAG_END)) {
uint32_t obj_id = mxch->data("Object");
const Data &chunk_data = mxch->data("Data");
// For split chunks, join them together
if (joining_chunk > 0) {
data[obj_id].back().append(chunk_data);
if (data[obj_id].back().size() == joining_chunk) {
joining_chunk = 0;
}
} else {
if (flags & MxCh::FLAG_SPLIT) {
joining_chunk = mxch->data("DataSize");
}
data[obj_id].push_back(chunk_data);
}
}
}
}

View file

@ -12,6 +12,7 @@ public:
LIBWEAVER_EXPORT Interleaf();
LIBWEAVER_EXPORT bool Parse(Chunk *riff);
LIBWEAVER_EXPORT Chunk *Export() const;
private:
bool ParseStream(Chunk *chunk);

View file

@ -1,10 +1,13 @@
#include "object.h"
#include <iostream>
namespace si {
Object::Object()
{
type_ = MxOb::Null;
id_ = 0;
}
bool Object::Parse(Chunk *chunk)
@ -47,6 +50,46 @@ bool Object::Parse(Chunk *chunk)
return true;
}
Chunk *Object::Export() const
{
Chunk *chunk = new Chunk(Chunk::TYPE_MxOb);
chunk->data("Type") = type_;
chunk->data("Presenter") = presenter_;
chunk->data("Unknown1") = unknown1_;
chunk->data("Name") = name_;
chunk->data("ID") = id_;
chunk->data("Flags") = flags_;
chunk->data("Unknown4") = unknown4_;
chunk->data("Duration") = duration_;
chunk->data("Loops") = loops_;
chunk->data("Position") = position_;
chunk->data("Direction") = direction_;
chunk->data("Up") = up_;
chunk->data("ExtraData") = extra_;
chunk->data("FileName") = filename_;
chunk->data("Unknown26") = unknown26_;
chunk->data("Unknown27") = unknown27_;
chunk->data("Unknown28") = unknown28_;
chunk->data("FileType") = filetype_;
chunk->data("Unknown29") = unknown29_;
chunk->data("Unknown30") = unknown30_;
chunk->data("Unknown31") = unknown31_;
if (HasChildren()) {
Chunk *list = new Chunk(Chunk::TYPE_LIST);
list->data("Format") = Chunk::TYPE_MxCh;
chunk->AppendChild(list);
for (Children::const_iterator it=GetChildren().begin(); it!=GetChildren().end(); it++) {
Object *child = static_cast<Object*>(*it);
list->AppendChild(child->Export());
}
}
return chunk;
}
bytearray Object::GetNormalizedData() const
{
return ToPackedData(filetype(), data_);

View file

@ -15,6 +15,8 @@ public:
Object();
bool Parse(Chunk *chunk);
Chunk *Export() const;
void SetChunkedData(const ChunkedData &cd) { data_ = cd; }
LIBWEAVER_EXPORT bytearray GetNormalizedData() const;
@ -27,6 +29,7 @@ public:
LIBWEAVER_EXPORT bytearray GetFileBody() const;
LIBWEAVER_EXPORT size_t GetFileBodySize() const;
const MxOb::Type &type() const { return type_; }
const MxOb::FileType &filetype() const { return filetype_; }
const uint32_t &id() const { return id_; }
const std::string &name() const { return name_; }