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cuberite-2a/src/BlockTypePalette.cpp

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#include "Globals.h"
#include "BlockTypePalette.h"
#include "json/value.h"
#include "JsonUtils.h"
/** Returns the index into aString >= aStartIdx at which the next separator occurs.
Separator is one of \t, \n or \r.
Returns AString::npos if no such separator. */
static size_t findNextSeparator(const AString & aString, size_t aStartIdx = 0)
{
for (size_t i = aStartIdx, len = aString.length(); i < len; ++i)
{
switch (aString[i])
{
case '\t':
case '\n':
case '\r':
{
return i;
}
}
}
return AString::npos;
}
BlockTypePalette::BlockTypePalette():
mMaxIndex(0)
{
}
UInt32 BlockTypePalette::index(const AString & aBlockTypeName, const BlockState & aBlockState)
{
auto idx = maybeIndex(aBlockTypeName, aBlockState);
if (idx.second)
{
return idx.first;
}
// Not found, append:
auto index = mMaxIndex++;
mBlockToNumber[aBlockTypeName][aBlockState] = index;
mNumberToBlock[index] = {aBlockTypeName, aBlockState};
return index;
}
std::pair<UInt32, bool> BlockTypePalette::maybeIndex(const AString & aBlockTypeName, const BlockState & aBlockState) const
{
auto itr1 = mBlockToNumber.find(aBlockTypeName);
if (itr1 == mBlockToNumber.end())
{
return {0, false};
}
auto itr2 = itr1->second.find(aBlockState);
if (itr2 == itr1->second.end())
{
return {0, false};
}
return {itr2->second, true};
}
UInt32 BlockTypePalette::count() const
{
return static_cast<UInt32>(mNumberToBlock.size());
}
const std::pair<AString, BlockState> & BlockTypePalette::entry(UInt32 aIndex) const
{
auto itr = mNumberToBlock.find(aIndex);
if (itr == mNumberToBlock.end())
{
throw NoSuchIndexException(aIndex);
}
return itr->second;
}
std::map<UInt32, UInt32> BlockTypePalette::createTransformMapAddMissing(const BlockTypePalette & aFrom)
{
std::map<UInt32, UInt32> res;
for (const auto & fromEntry: aFrom.mNumberToBlock)
{
auto fromIndex = fromEntry.first;
const auto & blockTypeName = fromEntry.second.first;
const auto & blockState = fromEntry.second.second;
res[fromIndex] = index(blockTypeName, blockState);
}
return res;
}
std::map<UInt32, UInt32> BlockTypePalette::createTransformMapWithFallback(const BlockTypePalette & aFrom, UInt32 aFallbackIndex) const
{
std::map<UInt32, UInt32> res;
for (const auto & fromEntry: aFrom.mNumberToBlock)
{
auto fromIndex = fromEntry.first;
const auto & blockTypeName = fromEntry.second.first;
const auto & blockState = fromEntry.second.second;
auto thisIndex = maybeIndex(blockTypeName, blockState);
if (thisIndex.second)
{
// The entry was found in this
res[fromIndex] = thisIndex.first;
}
else
{
// The entry was NOT found in this, replace with fallback:
res[fromIndex] = aFallbackIndex;
}
}
return res;
}
void BlockTypePalette::loadFromString(const AString & aString)
{
static const AString hdrTsvRegular = "BlockTypePalette";
static const AString hdrTsvUpgrade = "UpgradeBlockTypePalette";
// Detect format by checking the header line (none -> JSON):
if (aString.substr(0, hdrTsvRegular.length()) == hdrTsvRegular)
{
return loadFromTsv(aString, false);
}
else if (aString.substr(0, hdrTsvUpgrade.length()) == hdrTsvUpgrade)
{
return loadFromTsv(aString, true);
}
return loadFromJsonString(aString);
}
void BlockTypePalette::loadFromJsonString(const AString & aJsonPalette)
{
// Parse the string into JSON object:
Json::Value root;
std::string errs;
if (!JsonUtils::ParseString(aJsonPalette, root, &errs))
{
throw LoadFailedException(errs);
}
// Sanity-check the JSON's structure:
if (!root.isObject())
{
throw LoadFailedException("Incorrect palette format, expected an object at root.");
}
// Load the palette:
for (auto itr = root.begin(), end = root.end(); itr != end; ++itr)
{
const auto & blockTypeName = itr.name();
const auto & states = (*itr)["states"];
if (states == Json::Value())
{
throw LoadFailedException(Printf("Missing \"states\" for block type \"%s\"", blockTypeName));
}
for (const auto & state: states)
{
auto id = static_cast<UInt32>(std::stoul(state["id"].asString()));
std::map<AString, AString> props;
if (state.isMember("properties"))
{
const auto & properties = state["properties"];
if (!properties.isObject())
{
throw LoadFailedException(Printf("Member \"properties\" is not a JSON object (block type \"%s\", id %u).", blockTypeName, id));
}
for (const auto & key: properties.getMemberNames())
{
props[key] = properties[key].asString();
}
}
addMapping(id, blockTypeName, props);
}
}
}
void BlockTypePalette::loadFromTsv(const AString & aTsvPalette, bool aIsUpgrade)
{
static const AString hdrTsvRegular = "BlockTypePalette";
static const AString hdrTsvUpgrade = "UpgradeBlockTypePalette";
// Check the file signature:
auto idx = findNextSeparator(aTsvPalette);
if ((idx == AString::npos) || (aTsvPalette[idx] == '\t'))
{
throw LoadFailedException("Invalid signature");
}
auto signature = aTsvPalette.substr(0, idx);
bool isUpgrade = (signature == hdrTsvUpgrade);
if (!isUpgrade && (signature != hdrTsvRegular))
{
throw LoadFailedException("Unknown signature");
}
if (aTsvPalette[idx] == '\r') // CR of the CRLF pair, skip the LF:
{
idx += 1;
}
// Parse the header:
bool hasHadVersion = false;
AString commonPrefix;
int line = 2;
auto len = aTsvPalette.length();
while (true)
{
auto keyStart = idx + 1;
auto keyEnd = findNextSeparator(aTsvPalette, idx + 1);
if (keyEnd == AString::npos)
{
throw LoadFailedException(Printf("Invalid header key format on line %u", line));
}
if (keyEnd == idx + 1) // Empty line, end of headers
{
if (aTsvPalette[keyEnd] == '\r') // CR of the CRLF pair, skip the LF:
{
++keyEnd;
}
idx = keyEnd;
++line;
break;
}
auto valueEnd = findNextSeparator(aTsvPalette, keyEnd + 1);
if ((valueEnd == AString::npos) || (aTsvPalette[valueEnd] == '\t'))
{
throw LoadFailedException(Printf("Invalid header value format on line %u", line));
}
auto key = aTsvPalette.substr(keyStart, keyEnd - keyStart);
if (key == "FileVersion")
{
unsigned version = 0;
auto value = aTsvPalette.substr(keyEnd + 1, valueEnd - keyEnd - 1);
if (!StringToInteger(value, version))
{
throw LoadFailedException("Invalid FileVersion value");
}
else if (version != 1)
{
throw LoadFailedException(Printf("Unknown FileVersion: %u. Only version 1 is supported.", version));
}
hasHadVersion = true;
}
else if (key == "CommonPrefix")
{
commonPrefix = aTsvPalette.substr(keyEnd + 1, valueEnd - keyEnd - 1);
}
idx = valueEnd;
if (aTsvPalette[idx] == '\r') // CR of the CRLF pair, skip the LF:
{
++idx;
}
++line;
}
if (!hasHadVersion)
{
throw LoadFailedException("No FileVersion value");
}
// Parse the data:
while (idx + 1 < len)
{
auto lineStart = idx + 1;
auto idEnd = findNextSeparator(aTsvPalette, lineStart);
if ((idEnd == AString::npos) || (aTsvPalette[idEnd] != '\t'))
{
throw LoadFailedException(Printf("Incomplete data on line %u (id)", line));
}
UInt32 id;
if (!StringToInteger(aTsvPalette.substr(lineStart, idEnd - lineStart), id))
{
throw LoadFailedException(Printf("Failed to parse id on line %u", line));
}
size_t metaEnd = idEnd;
if (isUpgrade)
{
metaEnd = findNextSeparator(aTsvPalette, idEnd + 1);
if ((metaEnd == AString::npos) || (aTsvPalette[metaEnd] != '\t'))
{
throw LoadFailedException(Printf("Incomplete data on line %u (meta)", line));
}
UInt32 meta = 0;
if (!StringToInteger(aTsvPalette.substr(idEnd + 1, metaEnd - idEnd - 1), meta))
{
throw LoadFailedException(Printf("Failed to parse meta on line %u", line));
}
if (meta > 15)
{
throw LoadFailedException(Printf("Invalid meta value on line %u: %u", line, meta));
}
id = (id * 16) | meta;
}
auto blockTypeEnd = findNextSeparator(aTsvPalette, metaEnd + 1);
if (blockTypeEnd == AString::npos)
{
throw LoadFailedException(Printf("Incomplete data on line %u (blockTypeName)", line));
}
auto blockTypeName = aTsvPalette.substr(metaEnd + 1, blockTypeEnd - metaEnd - 1);
auto blockStateEnd = blockTypeEnd;
AStringMap blockState;
while (aTsvPalette[blockStateEnd] == '\t')
{
auto keyEnd = findNextSeparator(aTsvPalette, blockStateEnd + 1);
if ((keyEnd == AString::npos) || (aTsvPalette[keyEnd] != '\t'))
{
throw LoadFailedException(Printf("Incomplete data on line %u (blockState key)", line));
}
auto valueEnd = findNextSeparator(aTsvPalette, keyEnd + 1);
if (valueEnd == AString::npos)
{
throw LoadFailedException(Printf("Incomplete data on line %u (blockState value)", line));
}
auto key = aTsvPalette.substr(blockStateEnd + 1, keyEnd - blockStateEnd - 1);
auto value = aTsvPalette.substr(keyEnd + 1, valueEnd - keyEnd - 1);
blockState[key] = value;
blockStateEnd = valueEnd;
}
addMapping(id, commonPrefix + blockTypeName, std::move(blockState));
++line;
if (aTsvPalette[blockStateEnd] == '\r') // CR of the CRLF pair, skip the LF:
{
++blockStateEnd;
}
idx = blockStateEnd;
}
}
void BlockTypePalette::addMapping(UInt32 aID, const AString & aBlockTypeName, const BlockState & aBlockState)
{
mNumberToBlock[aID] = {aBlockTypeName, aBlockState};
mBlockToNumber[aBlockTypeName][aBlockState] = aID;
if (aID > mMaxIndex)
{
mMaxIndex = aID;
}
}