metaforce/Runtime/IOStreams.cpp

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#include "Runtime/IOStreams.hpp"
#include <hecl/hecl.hpp>
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namespace metaforce {
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#define DUMP_BITS 0
#if DUMP_BITS
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static void PrintBinary(u32 val, u32 count) {
for (u32 i = 0; i < count; ++i) {
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fmt::print(FMT_STRING("{}"), (val >> (count - i - 1)) & 0x1);
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}
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}
#endif
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/*!
* \brief CBitStreamReader::ReadBit
* Reads and decodes an encoded value from a bitstream.
* \param bitCount How many bits to read
* \return s32 The encoded value
*/
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s32 CBitStreamReader::ReadEncoded(u32 bitCount) {
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#if DUMP_BITS
const auto pos = position();
const auto boff = x20_bitOffset;
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#endif
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u32 ret = 0;
const s32 shiftAmt = x20_bitOffset - s32(bitCount);
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if (shiftAmt < 0) {
/* OR in remaining bits of cached value */
u32 mask = bitCount == 32 ? UINT32_MAX : ((1U << bitCount) - 1);
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ret |= (x1c_val << u32(-shiftAmt)) & mask;
/* Load in exact number of bytes remaining */
auto loadDiv = std::div(-shiftAmt, 8);
if (loadDiv.rem)
++loadDiv.quot;
readUBytesToBuf(reinterpret_cast<u8*>(&x1c_val) + 4 - loadDiv.quot, loadDiv.quot);
x1c_val = hecl::SBig(x1c_val);
/* New bit offset */
x20_bitOffset = loadDiv.quot * 8 + shiftAmt;
/* OR in next bits */
mask = (1U << u32(-shiftAmt)) - 1;
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ret |= (x1c_val >> x20_bitOffset) & mask;
} else {
/* OR in bits of cached value */
const u32 mask = bitCount == 32 ? UINT32_MAX : ((1U << bitCount) - 1);
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ret |= (x1c_val >> u32(shiftAmt)) & mask;
/* New bit offset */
x20_bitOffset -= bitCount;
}
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#if DUMP_BITS
std::fputs("READ ", stdout);
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PrintBinary(ret, bitCount);
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fmt::print(FMT_STRING(" {} {}\n"), pos, boff);
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#endif
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return ret;
}
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void CBitStreamWriter::WriteEncoded(u32 val, u32 bitCount) {
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#if DUMP_BITS
std::fputs("WRITE ", stdout);
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PrintBinary(val, bitCount);
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fmt::print(FMT_STRING(" {} {}\n"), position(), x18_bitOffset);
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#endif
const s32 shiftAmt = x18_bitOffset - s32(bitCount);
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if (shiftAmt < 0) {
/* OR remaining bits to cached value */
const u32 mask = (1U << x18_bitOffset) - 1;
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x14_val |= (val >> u32(-shiftAmt)) & mask;
/* Write out 32-bits */
x14_val = hecl::SBig(x14_val);
writeBytes(&x14_val, sizeof(x14_val));
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/* Cache remaining bits */
x18_bitOffset = 0x20 + shiftAmt;
x14_val = val << x18_bitOffset;
} else {
/* OR bits to cached value */
const u32 mask = bitCount == 32 ? UINT32_MAX : ((1U << bitCount) - 1);
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x14_val |= (val & mask) << u32(shiftAmt);
/* New bit offset */
x18_bitOffset -= bitCount;
}
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}
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void CBitStreamWriter::Flush() {
if (x18_bitOffset >= 0x20) {
return;
}
auto pos = std::div(0x20 - s32(x18_bitOffset), 8);
if (pos.rem != 0) {
++pos.quot;
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}
x14_val = hecl::SBig(x14_val);
writeBytes(&x14_val, pos.quot);
x18_bitOffset = 0x20;
x14_val = 0;
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}
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CZipInputStream::CZipInputStream(std::unique_ptr<CInputStream>&& strm)
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: x24_compBuf(new u8[4096]), x28_strm(std::move(strm)) {
x30_zstrm.next_in = x24_compBuf.get();
x30_zstrm.avail_in = 0;
x30_zstrm.zalloc = [](void*, u32 c, u32 n) -> void* { return new u8[size_t{c} * size_t{n}]; };
x30_zstrm.zfree = [](void*, void* buf) { delete[] static_cast<u8*>(buf); };
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inflateInit(&x30_zstrm);
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}
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CZipInputStream::~CZipInputStream() { inflateEnd(&x30_zstrm); }
atUint64 CZipInputStream::readUBytesToBuf(void* buf, atUint64 len) {
x30_zstrm.next_out = static_cast<Bytef*>(buf);
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x30_zstrm.avail_out = len;
x30_zstrm.total_out = 0;
while (x30_zstrm.avail_out != 0) {
if (x30_zstrm.avail_in == 0) {
atUint64 readSz = x28_strm->readUBytesToBuf(x24_compBuf.get(), 4096);
x30_zstrm.avail_in = readSz;
x30_zstrm.next_in = x24_compBuf.get();
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}
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int inflateRet = inflate(&x30_zstrm, Z_NO_FLUSH);
if (inflateRet != Z_OK)
break;
}
return x30_zstrm.total_out;
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}
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} // namespace metaforce