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Segment::ParseNext is implemented

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Change-Id: I31100afd4c16c48b366b7a29bec597909f9e2bbc
This commit is contained in:
matthewjheaney 2011-01-11 19:53:09 -05:00
parent b81751642e
commit bb8dfbe026
2 changed files with 357 additions and 8 deletions
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357
mkvparser.cpp
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@ -1293,7 +1293,10 @@ long Segment::LoadCluster(
return static_cast<long>(result);
if (result > 0)
{
len = 1;
return E_BUFFER_NOT_FULL;
}
if ((pos + len) > stop)
return E_FILE_FORMAT_INVALID;
@ -1314,7 +1317,10 @@ long Segment::LoadCluster(
return static_cast<long>(result);
if (result > 0)
{
len = 1;
return E_BUFFER_NOT_FULL;
}
if ((pos + len) > stop)
return E_FILE_FORMAT_INVALID;
@ -1339,18 +1345,17 @@ long Segment::LoadCluster(
if ((pos + size) > stop)
return E_FILE_FORMAT_INVALID;
len = static_cast<long>(size);
long long total, avail;
const int status = m_pReader->Length(&total, &avail);
assert(status == 0);
assert(status == 0); //TODO
assert(total >= 0);
assert(avail <= total);
if ((pos + size) > avail)
{
len = static_cast<long>(size);
return E_BUFFER_NOT_FULL;
}
if (id == 0x0C53BB6B) //Cues ID
{
@ -1396,11 +1401,13 @@ long Segment::LoadCluster(
pCluster->m_index = idx;
++m_clusterCount;
--m_clusterPreloadCount;
pCluster->Load(); //establish invariant
m_pos = pos + size; //consume payload
assert(m_pos <= stop);
return 0;
return 0; //we have a new cluster
}
}
@ -1420,13 +1427,15 @@ long Segment::LoadCluster(
assert(m_clusters);
assert(idx < m_clusterSize);
assert(m_clusters[idx] == pCluster);
pCluster->Load(); //establish invariant
return 0;
return 0; //we have a new cluster
}
}
assert(m_pos <= stop);
return 0;
return 1; //no error, but no new cluster either
}
@ -2778,6 +2787,340 @@ const Cluster* Segment::GetNext(const Cluster* pCurr)
}
long Segment::ParseNext(
const Cluster* pCurr,
const Cluster*& pResult,
long long& pos,
long& len)
{
assert(pCurr);
assert(!pCurr->EOS());
assert(m_clusters);
pResult = 0;
if (pCurr->m_index >= 0) //loaded (not merely preloaded)
{
assert(m_clusters[pCurr->m_index] == pCurr);
const long next_idx = pCurr->m_index + 1;
if (next_idx < m_clusterCount)
{
pResult = m_clusters[next_idx];
return 0; //success
}
//curr cluster is last among loaded
const long result = LoadCluster(pos, len);
if (result < 0) //error or underflow
return result;
if (result > 0) //no more clusters
return 1;
pResult = GetLast();
return 0; //success
}
long long total, avail;
const int status = m_pReader->Length(&total, &avail);
if (status < 0) //error
return status;
assert(total >= 0);
assert(avail <= total);
const long long off_curr_ = pCurr->m_pos;
const long long off_curr = off_curr_ * ((off_curr_ < 0) ? -1 : 1);
pos = m_start + off_curr;
const long long stop = m_start + m_size; //end of segment
{
if ((pos + 1) > avail)
{
len = 1;
return E_BUFFER_NOT_FULL;
}
long long result = GetUIntLength(m_pReader, pos, len);
if (result < 0) //error
return static_cast<long>(result);
if (result > 0) //weird
{
len = 1;
return E_BUFFER_NOT_FULL;
}
if ((pos + len) > stop)
return E_FILE_FORMAT_INVALID;
if ((pos + len) > avail)
return E_BUFFER_NOT_FULL;
const long long id = ReadUInt(m_pReader, pos, len);
if (id != 0x0F43B675) //weird: not Cluster ID
return -1;
pos += len; //consume ID
//Read Size
if ((pos + 1) > avail)
{
len = 1;
return E_BUFFER_NOT_FULL;
}
result = GetUIntLength(m_pReader, pos, len);
if (result < 0) //error
return static_cast<long>(result);
if (result > 0) //weird
{
len = 1;
return E_BUFFER_NOT_FULL;
}
if ((pos + len) > stop)
return E_FILE_FORMAT_INVALID;
if ((pos + len) > avail)
return E_BUFFER_NOT_FULL;
const long long size = ReadUInt(m_pReader, pos, len);
if (size < 0) //error
return static_cast<long>(size);
assert((pCurr->m_size <= 0) || (pCurr->m_size == size));
pos += len; //consume length of size of element
if ((pos + size) > stop)
return E_FILE_FORMAT_INVALID;
//Pos now points to start of payload
pos += size; //consume payload (that is, the current cluster)
assert(pos <= stop);
//By consuming the payload, we are assuming that the curr
//cluster isn't interesting. That is, we don't bother checking
//whether the payload of the curr cluster is less than what
//happens to be available (obtained via IMkvReader::Length).
//Presumably the caller has already dispensed with the current
//cluster, and really does want the next cluster.
}
//pos now points to just beyond the last fully-loaded cluster
long long off_next = 0;
long long element_start = -1;
long long element_size = -1;
while (pos < stop)
{
if ((pos + 1) > avail)
{
len = 1;
return E_BUFFER_NOT_FULL;
}
long long result = GetUIntLength(m_pReader, pos, len);
if (result < 0) //error
return static_cast<long>(result);
if (result > 0) //weird
{
len = 1;
return E_BUFFER_NOT_FULL;
}
if ((pos + len) > stop)
return E_FILE_FORMAT_INVALID;
if ((pos + len) > avail)
return E_BUFFER_NOT_FULL;
const long long idpos = pos; //absolute
const long long idoff = pos - m_start; //relative
const long long id = ReadUInt(m_pReader, idpos, len); //absolute
if (id < 0) //error
return static_cast<long>(id);
if (id == 0) //weird
return -1; //generic error
pos += len; //consume ID
//Read Size
if ((pos + 1) > avail)
{
len = 1;
return E_BUFFER_NOT_FULL;
}
result = GetUIntLength(m_pReader, pos, len);
if (result < 0) //error
return static_cast<long>(result);
if (result > 0) //weird
{
len = 1;
return E_BUFFER_NOT_FULL;
}
if ((pos + len) > stop)
return E_FILE_FORMAT_INVALID;
if ((pos + len) > avail)
return E_BUFFER_NOT_FULL;
const long long size = ReadUInt(m_pReader, pos, len);
if (size < 0) //error
return static_cast<long>(size);
pos += len; //consume length of size of element
//Pos now points to start of payload
if (size == 0) //weird
continue;
element_start = idpos;
const long long element_stop = pos + size;
if (element_stop > stop)
return E_FILE_FORMAT_INVALID;
element_size = element_stop - element_start;
if (id == 0x0C53BB6B) //Cues ID
{
if (m_pCues == NULL)
{
m_pCues = new Cues(this,
pos,
size,
element_start,
element_size);
assert(m_pCues); //TODO
}
pos += size; //consume payload
assert(pos <= stop);
continue;
}
if (id != 0x0F43B675) //Cluster ID
{
pos += size; //consume payload
assert(pos <= stop);
continue;
}
len = static_cast<long>(size);
#if 1 //TODO: get rid of this
if (element_stop > avail)
return E_BUFFER_NOT_FULL;
#endif
if (Cluster::HasBlockEntries(this, idoff)) //relative
{
off_next = idoff;
break;
}
pos += size; //consume payload
assert(pos <= stop);
}
if (off_next <= 0) //no next cluster found
return 1;
//We have parsed the next cluster, and can even guarantee
//that its payload is all available (IMkvReader::Length).
//All we need to do now is determine whether it has already
//be preloaded.
Cluster** const ii = m_clusters + m_clusterCount;
Cluster** i = ii;
Cluster** const jj = ii + m_clusterPreloadCount;
Cluster** j = jj;
while (i < j)
{
//INVARIANT:
//[0, i) < pos_next
//[i, j) ?
//[j, jj) > pos_next
Cluster** const k = i + (j - i) / 2;
assert(k < jj);
const Cluster* const pNext = *k;
assert(pNext);
assert(pNext->m_index < 0);
const long long pos_ = pNext->m_pos;
assert(pos_);
pos = pos_ * ((pos_ < 0) ? -1 : 1);
if (pos < off_next)
i = k + 1;
else if (pos > off_next)
j = k;
else
{
pResult = pNext;
return 0; //success
}
}
assert(i == j);
Cluster* const pNext = Cluster::Parse(this,
-1, //preloaded
off_next,
element_start,
element_size);
assert(pNext);
const ptrdiff_t idx_next = i - m_clusters; //insertion position
PreloadCluster(pNext, idx_next);
assert(m_clusters);
assert(idx_next < m_clusterSize);
assert(m_clusters[idx_next] == pNext);
pNext->Load(); //because we need this now
pResult = pNext;
return 0; //success
}
const Cluster* Segment::FindCluster(long long time_ns) const
{
if ((m_clusters == NULL) || (m_clusterCount <= 0))

8
mkvparser.hpp
View File

@ -522,6 +522,7 @@ public:
const BlockEntry* GetMaxKey(const VideoTrack*) const;
static bool HasBlockEntries(const Segment*, long long);
void Load() const;
protected:
Cluster(
@ -544,7 +545,6 @@ private:
mutable BlockEntry** m_entries;
mutable long m_entries_count;
void Load() const;
void LoadBlockEntries() const;
void ParseBlockGroup(long long, long long, size_t) const;
void ParseSimpleBlock(long long, long long, size_t) const;
@ -582,6 +582,12 @@ public:
long LoadCluster(long long& pos, long& size); //load one cluster
long LoadCluster();
long ParseNext(
const Cluster* pCurr,
const Cluster*& pNext,
long long& pos,
long& size);
//This pair parses one cluster, but only changes the state of the
//segment object when the cluster is actually added to the index.
long ParseCluster(long long& cluster_pos, long long& new_pos) const;