SpaceCadetPinballPPC/SpaceCadetPinball/GroupData.cpp
Muzychenko Andrey 22ce8ac538 gdrv: blit no more, present render:vScreen directly.
Improved split bitmap handling.
2021-09-25 16:52:19 +03:00

278 lines
6.6 KiB
C++

#include "pch.h"
#include "GroupData.h"
#include "fullscrn.h"
#include "gdrv.h"
#include "memory.h"
#include "zdrv.h"
EntryData::~EntryData()
{
if (Buffer)
{
if (EntryType == FieldTypes::Bitmap8bit)
gdrv::destroy_bitmap(reinterpret_cast<gdrv_bitmap8*>(Buffer));
else if (EntryType == FieldTypes::Bitmap16bit)
zdrv::destroy_zmap(reinterpret_cast<zmap_header_type*>(Buffer));
memory::free(Buffer);
}
}
GroupData::GroupData(int groupId)
{
GroupId = groupId;
}
void GroupData::AddEntry(EntryData* entry)
{
auto addEntry = true;
switch (entry->EntryType)
{
case FieldTypes::GroupName:
GroupName = entry->Buffer;
break;
case FieldTypes::Bitmap8bit:
{
auto srcBmp = reinterpret_cast<gdrv_bitmap8*>(entry->Buffer);
if (srcBmp->BitmapType == BitmapTypes::Spliced)
{
// Get rid of spliced bitmap early on, to simplify render pipeline
auto bmp = memory::allocate<gdrv_bitmap8>();
auto zMap = memory::allocate<zmap_header_type>();
SplitSplicedBitmap(*srcBmp, *bmp, *zMap);
NeedsSort = true;
addEntry = false;
AddEntry(new EntryData(FieldTypes::Bitmap8bit, reinterpret_cast<char*>(bmp)));
AddEntry(new EntryData(FieldTypes::Bitmap16bit, reinterpret_cast<char*>(zMap)));
delete entry;
}
else
{
SetBitmap(srcBmp);
}
break;
}
case FieldTypes::Bitmap16bit:
{
SetZMap(reinterpret_cast<zmap_header_type*>(entry->Buffer));
break;
}
default: break;
}
if (addEntry)
Entries.push_back(entry);
}
void GroupData::FinalizeGroup()
{
if (NeedsSort)
{
// Entries within a group are sorted by EntryType, in ascending order.
// Dat files follow this rule, zMaps inserted in the middle break it.
NeedsSort = false;
std::sort(Entries.begin(), Entries.end(), [](const EntryData* lhs, const EntryData* rhs)
{
return lhs->EntryType < rhs->EntryType;
});
Entries.shrink_to_fit();
}
}
gdrv_bitmap8* GroupData::GetBitmap(int resolution) const
{
return Bitmaps[resolution];
}
zmap_header_type* GroupData::GetZMap(int resolution) const
{
return ZMaps[resolution];
}
void GroupData::SplitSplicedBitmap(const gdrv_bitmap8& srcBmp, gdrv_bitmap8& bmp, zmap_header_type& zMap)
{
assertm(srcBmp.BitmapType == BitmapTypes::Spliced, "GroupData: wrong bitmap type");
gdrv::create_bitmap(&bmp, srcBmp.Width, srcBmp.Height, srcBmp.Width);
std::memset(bmp.IndexedBmpPtr, 0xff, bmp.Stride * bmp.Height);
bmp.XPosition = srcBmp.XPosition;
bmp.YPosition = srcBmp.YPosition;
bmp.Resolution = srcBmp.Resolution;
zdrv::create_zmap(&zMap, srcBmp.Width, srcBmp.Height, srcBmp.Width);
zdrv::fill(&zMap, zMap.Width, zMap.Height, 0, 0, 0xFFFF);
zMap.Resolution = srcBmp.Resolution;
auto tableWidth = fullscrn::resolution_array[srcBmp.Resolution].TableWidth;
auto src = reinterpret_cast<uint16_t*>(srcBmp.IndexedBmpPtr);
auto srcChar = reinterpret_cast<char**>(&src);
for (int dstInd = 0;;)
{
auto stride = static_cast<int16_t>(*src++);
if (stride < 0)
break;
// Stride is in terms of dst stride, hardcoded to match vScreen width in current resolution
if (stride > bmp.Width)
{
stride += bmp.Width - tableWidth;
assertm(stride >= 0, "Spliced bitmap: negative computed stride");
}
dstInd += stride;
for (auto count = *src++; count; count--)
{
auto depth = *src++;
bmp.IndexedBmpPtr[dstInd] = **srcChar;
zMap.ZPtr1[dstInd] = depth;
(*srcChar)++;
dstInd++;
}
}
}
void GroupData::SetBitmap(gdrv_bitmap8* bmp)
{
assertm(Bitmaps[bmp->Resolution] == nullptr, "GroupData: bitmap override");
Bitmaps[bmp->Resolution] = bmp;
auto zMap = ZMaps[bmp->Resolution];
if (zMap)
{
assertm(bmp->Width == zMap->Width && bmp->Height == zMap->Height,
"GroupData: mismatched bitmap/zMap dimensions");
}
}
void GroupData::SetZMap(zmap_header_type* zMap)
{
// Flip zMap to match with flipped non-indexed bitmaps
zdrv::FlipZMapHorizontally(*zMap);
assertm(ZMaps[zMap->Resolution] == nullptr, "GroupData: zMap override");
ZMaps[zMap->Resolution] = zMap;
auto bmp = Bitmaps[zMap->Resolution];
if (bmp)
{
assertm(bmp->Width == zMap->Width && bmp->Height == zMap->Height,
"GroupData: mismatched bitmap/zMap dimensions");
}
}
DatFile::~DatFile()
{
for (auto group : Groups)
{
if (!group)
continue;
for (const auto entry : group->GetEntries())
{
delete entry;
}
delete group;
}
}
char* DatFile::field(int groupIndex, FieldTypes targetEntryType)
{
assertm(targetEntryType != FieldTypes::Bitmap8bit && targetEntryType != FieldTypes::Bitmap16bit,
"partman: Use specific get for bitmaps");
auto group = Groups[groupIndex];
for (const auto entry : group->GetEntries())
{
if (entry->EntryType == targetEntryType)
{
return entry->Buffer;
}
if (entry->EntryType > targetEntryType)
break;
}
return nullptr;
}
char* DatFile::field_nth(int groupIndex, FieldTypes targetEntryType, int skipFirstN)
{
assertm(targetEntryType != FieldTypes::Bitmap8bit && targetEntryType != FieldTypes::Bitmap16bit,
"partman: Use specific get for bitmaps");
auto group = Groups[groupIndex];
auto skipCount = 0;
for (const auto entry : group->GetEntries())
{
if (entry->EntryType > targetEntryType)
break;
if (entry->EntryType == targetEntryType)
if (skipCount++ == skipFirstN)
return entry->Buffer;
}
return nullptr;
}
int DatFile::field_size_nth(int groupIndex, FieldTypes targetEntryType, int skipFirstN)
{
auto group = Groups[groupIndex];
auto skipCount = 0;
for (const auto entry : group->GetEntries())
{
if (entry->EntryType > targetEntryType)
return 0;
if (entry->EntryType == targetEntryType)
if (skipCount++ == skipFirstN)
return entry->FieldSize;
}
return 0;
}
int DatFile::field_size(int groupIndex, FieldTypes targetEntryType)
{
return field_size_nth(groupIndex, targetEntryType, 0);
}
int DatFile::record_labeled(LPCSTR targetGroupName)
{
auto targetLength = strlen(targetGroupName);
for (int groupIndex = Groups.size() - 1; groupIndex >= 0; --groupIndex)
{
auto groupName = field(groupIndex, FieldTypes::GroupName);
if (!groupName)
continue;
int index;
for (index = 0; index < targetLength; index++)
if (targetGroupName[index] != groupName[index])
break;
if (index == targetLength && !targetGroupName[index] && !groupName[index])
return groupIndex;
}
return -1;
}
char* DatFile::field_labeled(LPCSTR lpString, FieldTypes fieldType)
{
auto groupIndex = record_labeled(lpString);
return groupIndex < 0 ? nullptr : field(groupIndex, fieldType);
}
gdrv_bitmap8* DatFile::GetBitmap(int groupIndex)
{
auto group = Groups[groupIndex];
return group->GetBitmap(fullscrn::GetResolution());
}
zmap_header_type* DatFile::GetZMap(int groupIndex)
{
auto group = Groups[groupIndex];
return group->GetZMap(fullscrn::GetResolution());
}