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#ifndef SIMDJSON_SRC_PPC64_CPP
#define SIMDJSON_SRC_PPC64_CPP
#ifndef SIMDJSON_CONDITIONAL_INCLUDE
#include <base.h>
#endif // SIMDJSON_CONDITIONAL_INCLUDE
#include <simdjson/ppc64.h>
#include <simdjson/ppc64/implementation.h>
#include <simdjson/ppc64/begin.h>
#include <generic/amalgamated.h>
#include <generic/stage1/amalgamated.h>
#include <generic/stage2/amalgamated.h>
//
// Stage 1
//
namespace simdjson {
namespace ppc64 {
simdjson_warn_unused error_code implementation::create_dom_parser_implementation(
size_t capacity,
size_t max_depth,
std::unique_ptr<internal::dom_parser_implementation>& dst
) const noexcept {
dst.reset( new (std::nothrow) dom_parser_implementation() );
if (!dst) { return MEMALLOC; }
if (auto err = dst->set_capacity(capacity))
return err;
if (auto err = dst->set_max_depth(max_depth))
return err;
return SUCCESS;
}
namespace {
using namespace simd;
simdjson_inline json_character_block json_character_block::classify(const simd::simd8x64<uint8_t>& in) {
const simd8<uint8_t> table1(16, 0, 0, 0, 0, 0, 0, 0, 0, 8, 12, 1, 2, 9, 0, 0);
const simd8<uint8_t> table2(8, 0, 18, 4, 0, 1, 0, 1, 0, 0, 0, 3, 2, 1, 0, 0);
simd8x64<uint8_t> v(
(in.chunks[0] & 0xf).lookup_16(table1) & (in.chunks[0].shr<4>()).lookup_16(table2),
(in.chunks[1] & 0xf).lookup_16(table1) & (in.chunks[1].shr<4>()).lookup_16(table2),
(in.chunks[2] & 0xf).lookup_16(table1) & (in.chunks[2].shr<4>()).lookup_16(table2),
(in.chunks[3] & 0xf).lookup_16(table1) & (in.chunks[3].shr<4>()).lookup_16(table2)
);
uint64_t op = simd8x64<bool>(
v.chunks[0].any_bits_set(0x7),
v.chunks[1].any_bits_set(0x7),
v.chunks[2].any_bits_set(0x7),
v.chunks[3].any_bits_set(0x7)
).to_bitmask();
uint64_t whitespace = simd8x64<bool>(
v.chunks[0].any_bits_set(0x18),
v.chunks[1].any_bits_set(0x18),
v.chunks[2].any_bits_set(0x18),
v.chunks[3].any_bits_set(0x18)
).to_bitmask();
return { whitespace, op };
}
simdjson_inline bool is_ascii(const simd8x64<uint8_t>& input) {
// careful: 0x80 is not ascii.
return input.reduce_or().saturating_sub(0x7fu).bits_not_set_anywhere();
}
simdjson_unused simdjson_inline simd8<bool> must_be_continuation(const simd8<uint8_t> prev1, const simd8<uint8_t> prev2, const simd8<uint8_t> prev3) {
simd8<uint8_t> is_second_byte = prev1.saturating_sub(0xc0u-1); // Only 11______ will be > 0
simd8<uint8_t> is_third_byte = prev2.saturating_sub(0xe0u-1); // Only 111_____ will be > 0
simd8<uint8_t> is_fourth_byte = prev3.saturating_sub(0xf0u-1); // Only 1111____ will be > 0
// Caller requires a bool (all 1's). All values resulting from the subtraction will be <= 64, so signed comparison is fine.
return simd8<int8_t>(is_second_byte | is_third_byte | is_fourth_byte) > int8_t(0);
}
simdjson_inline simd8<uint8_t> must_be_2_3_continuation(const simd8<uint8_t> prev2, const simd8<uint8_t> prev3) {
simd8<uint8_t> is_third_byte = prev2.saturating_sub(0xe0u-0x80); // Only 111_____ will be >= 0x80
simd8<uint8_t> is_fourth_byte = prev3.saturating_sub(0xf0u-0x80); // Only 1111____ will be >= 0x80
return is_third_byte | is_fourth_byte;
}
} // unnamed namespace
} // namespace ppc64
} // namespace simdjson
//
// Stage 2
//
//
// Implementation-specific overrides
//
namespace simdjson {
namespace ppc64 {
simdjson_warn_unused error_code implementation::minify(const uint8_t *buf, size_t len, uint8_t *dst, size_t &dst_len) const noexcept {
return ppc64::stage1::json_minifier::minify<64>(buf, len, dst, dst_len);
}
simdjson_warn_unused error_code dom_parser_implementation::stage1(const uint8_t *_buf, size_t _len, stage1_mode streaming) noexcept {
this->buf = _buf;
this->len = _len;
return ppc64::stage1::json_structural_indexer::index<64>(buf, len, *this, streaming);
}
simdjson_warn_unused bool implementation::validate_utf8(const char *buf, size_t len) const noexcept {
return ppc64::stage1::generic_validate_utf8(buf,len);
}
simdjson_warn_unused error_code dom_parser_implementation::stage2(dom::document &_doc) noexcept {
return stage2::tape_builder::parse_document<false>(*this, _doc);
}
simdjson_warn_unused error_code dom_parser_implementation::stage2_next(dom::document &_doc) noexcept {
return stage2::tape_builder::parse_document<true>(*this, _doc);
}
SIMDJSON_NO_SANITIZE_MEMORY
simdjson_warn_unused uint8_t *dom_parser_implementation::parse_string(const uint8_t *src, uint8_t *dst, bool replacement_char) const noexcept {
return ppc64::stringparsing::parse_string(src, dst, replacement_char);
}
simdjson_warn_unused uint8_t *dom_parser_implementation::parse_wobbly_string(const uint8_t *src, uint8_t *dst) const noexcept {
return ppc64::stringparsing::parse_wobbly_string(src, dst);
}
simdjson_warn_unused error_code dom_parser_implementation::parse(const uint8_t *_buf, size_t _len, dom::document &_doc) noexcept {
auto error = stage1(_buf, _len, stage1_mode::regular);
if (error) { return error; }
return stage2(_doc);
}
} // namespace ppc64
} // namespace simdjson
#include <simdjson/ppc64/end.h>
#endif // SIMDJSON_SRC_PPC64_CPP