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https://git.mirrors.martin98.com/https://github.com/google/draco
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6.1 KiB
6.1 KiB
Rans Decoding
DecodeSymbols()
void DecodeSymbols(num_symbols, num_components, out_values) {
scheme UI8
if (scheme == 0) {
DecodeTaggedSymbols(num_symbols, num_components, out_values);
} else if (scheme == 1) {
DecodeRawSymbols(num_symbols, out_values);
}
}
{:.draco-syntax }
ComputeRAnsUnclampedPrecision
int ComputeRAnsUnclampedPrecision(max_bit_length) {
return (3 * max_bit_length) / 2;
}
{:.draco-syntax }
ComputeRAnsPrecisionFromMaxSymbolBitLength
int ComputeRAnsPrecisionFromMaxSymbolBitLength(max_bit_length) {
return ComputeRAnsUnclampedPrecision(max_bit_length) < 12
? 12
: ComputeRAnsUnclampedPrecision(max_bit_length) > 20
? 20
: ComputeRAnsUnclampedPrecision(max_bit_length);
}
{:.draco-syntax }
DecodeTaggedSymbols
void DecodeTaggedSymbols(num_values, num_components, out_values) {
max_symbol_bit_length_t = 5;
rans_precision_bits_t =
ComputeRAnsPrecisionFromMaxSymbolBitLength(max_symbol_bit_length_t);
rans_precision = 1 << rans_precision_bits_t;
l_rans_base = rans_precision * 4;
num_symbols_ varUI32
BuildSymbolTables(num_symbols_, lut_table_, probability_table_);
size varUI64
encoded_data UI8[size]
RansInitDecoder(ans_, &encoded_data[0], size, l_rans_base);
for (i = 0; i < num_values; i += num_components) {
RansRead(ans_, l_rans_base, rans_precision,
lut_table_, probability_table_, &size);
for (j = 0; j < num_components; ++j) {
val f[size]
out_values.push_back(val);
}
}
}
{:.draco-syntax }
DecodeRawSymbols
void DecodeRawSymbols(num_values, out_values) {
max_bit_length UI8
num_symbols_ varUI32
rans_precision_bits = (3 * max_bit_length) / 2;
if (rans_precision_bits > 20)
rans_precision_bits = 20;
if (rans_precision_bits < 12)
rans_precision_bits = 12;
rans_precision = 1 << rans_precision_bits;
l_rans_base = rans_precision * 4;
BuildSymbolTables(num_symbols_, lut_table_, probability_table_);
size varUI64
buffer UI8[size]
RansInitDecoder(ans_, &buffer[0], size, l_rans_base);
for (i = 0; i < num_values; ++i) {
RansRead(ans_, l_rans_base, rans_precision,
lut_table_, probability_table_, &val);
out_values.push_back(val);
}
}
{:.draco-syntax }
BuildSymbolTables
void BuildSymbolTables(num_symbols_, lut_table_, probability_table_) {
for (i = 0; i < num_symbols_; ++i) {
// Decode the first byte and extract the number of extra bytes we need to
// get, or the offset to the next symbol with non-zero probability.
prob_data UI8
token = prob_data & 3;
if (token == 3) {
offset = prob_data >> 2;
for (j = 0; j < offset + 1; ++j) {
token_probs[i + j] = 0;
}
i += offset;
} else {
prob = prob_data >> 2;
for (j = 0; j < token; ++j) {
eb UI8
prob = prob | (eb << (8 * (j + 1) - 2));
}
token_probs[i] = prob;
}
}
rans_build_look_up_table(&token_probs[0], num_symbols_, lut_table_,
probability_table_);
}
{:.draco-syntax }
rans_build_look_up_table
void rans_build_look_up_table(
token_probs[], num_symbols, lut_table_, probability_table_) {
cum_prob = 0;
act_prob = 0;
for (i = 0; i < num_symbols; ++i) {
probability_table_[i].prob = token_probs[i];
probability_table_[i].cum_prob = cum_prob;
cum_prob += token_probs[i];
for (j = act_prob; j < cum_prob; ++j) {
lut_table_[j] = i;
}
act_prob = cum_prob;
}
}
{:.draco-syntax }
RansInitDecoder
void RansInitDecoder(ans, buf, offset, l_rans_base) {
ans.buf = buf;
x = buf[offset - 1] >> 6;
if (x == 0) {
ans.buf_offset = offset - 1;
ans.state = buf[offset - 1] & 0x3F;
} else if (x == 1) {
ans.buf_offset = offset - 2;
ans.state = mem_get_le16(buf + offset - 2) & 0x3FFF;
} else if (x == 2) {
ans.buf_offset = offset - 3;
ans.state = mem_get_le24(buf + offset - 3) & 0x3FFFFF;
} else if (x == 3) {
ans.buf_offset = offset - 4;
ans.state = mem_get_le32(buf + offset - 4) & 0x3FFFFFFF;
}
ans.state += l_rans_base;
}
{:.draco-syntax }
RansRead
void RansRead(ans, l_rans_base, rans_precision,
lut_table_, probability_table_, val) {
while (ans.state < l_rans_base && ans.buf_offset > 0) {
ans.state = ans.state * IO_BASE + ans.buf[--ans.buf_offset];
}
quo = ans.state / rans_precision;
rem = ans.state % rans_precision;
fetch_sym(&sym, rem, lut_table_, probability_table_);
ans.state = quo * sym.prob + rem - sym.cum_prob;
val = sym.val;
}
{:.draco-syntax }
fetch_sym
void fetch_sym(sym, rem, lut_table_, probability_table_) {
symbol = lut_table_[rem];
sym.val = symbol;
sym.prob = probability_table_[symbol].prob;
sym.cum_prob = probability_table_[symbol].cum_prob;
}
{:.draco-syntax }
RabsDescRead
void RabsDescRead(ans, p0, out_val) {
p = rabs_ans_p8_precision - p0;
if (ans.state < rabs_l_base) {
ans.state = ans.state * IO_BASE + ans.buf[--ans.buf_offset];
}
x = ans.state;
quot = x / rabs_ans_p8_precision;
rem = x % rabs_ans_p8_precision;
xn = quot * p;
val = rem < p;
if (val) {
ans.state = xn + rem;
} else {
ans.state = x - xn - p;
}
out_val = val;
}
{:.draco-syntax }