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openmw/components/nif/nifstream.hpp

255 lines
6.6 KiB
C++

///Functions used to read raw binary data from .nif files
#ifndef OPENMW_COMPONENTS_NIF_NIFSTREAM_HPP
#define OPENMW_COMPONENTS_NIF_NIFSTREAM_HPP
#include <cassert>
#include <stdint.h>
#include <stdexcept>
#include <vector>
#include <components/files/constrainedfilestream.hpp>
#include <components/misc/endianness.hpp>
#include <osg/Vec3f>
#include <osg/Vec4f>
#include <osg/Quat>
#include "niftypes.hpp"
namespace Nif
{
class NIFFile;
/*
readLittleEndianBufferOfType: This template should only be used with arithmetic types
*/
template <uint32_t numInstances, typename T> inline void readLittleEndianBufferOfType(Files::IStreamPtr &pIStream, T* dest)
{
pIStream->read((char*)dest, numInstances * sizeof(T));
if constexpr (Misc::IS_BIG_ENDIAN)
for (uint32_t i = 0; i < numInstances; i++)
Misc::swapEndiannessInplace(dest[i]);
}
/*
readLittleEndianDynamicBufferOfType: This template should only be used with arithmetic types
*/
template <typename T> inline void readLittleEndianDynamicBufferOfType(Files::IStreamPtr &pIStream, T* dest, uint32_t numInstances)
{
pIStream->read((char*)dest, numInstances * sizeof(T));
if constexpr (Misc::IS_BIG_ENDIAN)
for (uint32_t i = 0; i < numInstances; i++)
Misc::swapEndiannessInplace(dest[i]);
}
template<typename type> type inline readLittleEndianType(Files::IStreamPtr &pIStream)
{
type val;
readLittleEndianBufferOfType<1, type>(pIStream, (type*)&val);
return val;
}
class NIFStream
{
/// Input stream
Files::IStreamPtr inp;
public:
NIFFile * const file;
NIFStream (NIFFile * file, Files::IStreamPtr inp): inp (inp), file (file) {}
void skip(size_t size) { inp->ignore(size); }
char getChar()
{
return readLittleEndianType<char>(inp);
}
short getShort()
{
return readLittleEndianType<short>(inp);
}
unsigned short getUShort()
{
return readLittleEndianType<unsigned short>(inp);
}
int getInt()
{
return readLittleEndianType<int>(inp);
}
unsigned int getUInt()
{
return readLittleEndianType<unsigned int>(inp);
}
float getFloat()
{
return readLittleEndianType<float>(inp);
}
osg::Vec2f getVector2()
{
osg::Vec2f vec;
readLittleEndianBufferOfType<2,float>(inp, (float*)&vec._v[0]);
return vec;
}
osg::Vec3f getVector3()
{
osg::Vec3f vec;
readLittleEndianBufferOfType<3, float>(inp, (float*)&vec._v[0]);
return vec;
}
osg::Vec4f getVector4()
{
osg::Vec4f vec;
readLittleEndianBufferOfType<4, float>(inp, (float*)&vec._v[0]);
return vec;
}
Matrix3 getMatrix3()
{
Matrix3 mat;
readLittleEndianBufferOfType<9, float>(inp, (float*)&mat.mValues);
return mat;
}
osg::Quat getQuaternion();
Transformation getTrafo();
bool getBoolean();
std::string getString();
unsigned int getVersion() const;
unsigned int getUserVersion() const;
unsigned int getBethVersion() const;
// Convert human-readable version numbers into a number that can be compared.
static constexpr uint32_t generateVersion(uint8_t major, uint8_t minor, uint8_t patch, uint8_t rev)
{
return (major << 24) + (minor << 16) + (patch << 8) + rev;
}
///Read in a string of the given length
std::string getSizedString(size_t length)
{
std::vector<char> str(length + 1, 0);
inp->read(str.data(), length);
return str.data();
}
///Read in a string of the length specified in the file
std::string getSizedString()
{
size_t size = readLittleEndianType<uint32_t>(inp);
return getSizedString(size);
}
///Specific to Bethesda headers, uses a byte for length
std::string getExportString()
{
size_t size = static_cast<size_t>(readLittleEndianType<uint8_t>(inp));
return getSizedString(size);
}
///This is special since the version string doesn't start with a number, and ends with "\n"
std::string getVersionString()
{
std::string result;
std::getline(*inp, result);
return result;
}
void getChars(std::vector<char> &vec, size_t size)
{
vec.resize(size);
readLittleEndianDynamicBufferOfType<char>(inp, vec.data(), size);
}
void getUChars(std::vector<unsigned char> &vec, size_t size)
{
vec.resize(size);
readLittleEndianDynamicBufferOfType<unsigned char>(inp, vec.data(), size);
}
void getUShorts(std::vector<unsigned short> &vec, size_t size)
{
vec.resize(size);
readLittleEndianDynamicBufferOfType<unsigned short>(inp, vec.data(), size);
}
void getFloats(std::vector<float> &vec, size_t size)
{
vec.resize(size);
readLittleEndianDynamicBufferOfType<float>(inp, vec.data(), size);
}
void getInts(std::vector<int> &vec, size_t size)
{
vec.resize(size);
readLittleEndianDynamicBufferOfType<int>(inp, vec.data(), size);
}
void getUInts(std::vector<unsigned int> &vec, size_t size)
{
vec.resize(size);
readLittleEndianDynamicBufferOfType<unsigned int>(inp, vec.data(), size);
}
void getVector2s(std::vector<osg::Vec2f> &vec, size_t size)
{
vec.resize(size);
/* The packed storage of each Vec2f is 2 floats exactly */
readLittleEndianDynamicBufferOfType<float>(inp,(float*)vec.data(), size*2);
}
void getVector3s(std::vector<osg::Vec3f> &vec, size_t size)
{
vec.resize(size);
/* The packed storage of each Vec3f is 3 floats exactly */
readLittleEndianDynamicBufferOfType<float>(inp, (float*)vec.data(), size*3);
}
void getVector4s(std::vector<osg::Vec4f> &vec, size_t size)
{
vec.resize(size);
/* The packed storage of each Vec4f is 4 floats exactly */
readLittleEndianDynamicBufferOfType<float>(inp, (float*)vec.data(), size*4);
}
void getQuaternions(std::vector<osg::Quat> &quat, size_t size)
{
quat.resize(size);
for (size_t i = 0;i < quat.size();i++)
quat[i] = getQuaternion();
}
void getStrings(std::vector<std::string> &vec, size_t size)
{
vec.resize(size);
for (size_t i = 0; i < vec.size(); i++)
vec[i] = getString();
}
/// We need to use this when the string table isn't actually initialized.
void getSizedStrings(std::vector<std::string> &vec, size_t size)
{
vec.resize(size);
for (size_t i = 0; i < vec.size(); i++)
vec[i] = getSizedString();
}
};
}
#endif