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value_bag.hh
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value_bag.hh
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/* Masstree
* Eddie Kohler, Yandong Mao, Robert Morris
* Copyright (c) 2012-2014 President and Fellows of Harvard College
* Copyright (c) 2012-2014 Massachusetts Institute of Technology
*
* Permission is hereby granted, free of charge, to any person obtaining a
* copy of this software and associated documentation files (the "Software"),
* to deal in the Software without restriction, subject to the conditions
* listed in the Masstree LICENSE file. These conditions include: you must
* preserve this copyright notice, and you cannot mention the copyright
* holders in advertising related to the Software without their permission.
* The Software is provided WITHOUT ANY WARRANTY, EXPRESS OR IMPLIED. This
* notice is a summary of the Masstree LICENSE file; the license in that file
* is legally binding.
*/
#ifndef VALUE_BAG_HH
#define VALUE_BAG_HH
#include "kvthread.hh"
#include "json.hh"
template <typename O>
class value_bag {
public:
typedef short index_type;
typedef O offset_type;
typedef lcdf::Str Str;
typedef lcdf::Json Json;
private:
union bagdata {
struct {
offset_type ncol_;
offset_type pos_[1];
};
char s_[0];
};
public:
static const char *name() { return "Bag"; }
inline value_bag();
inline kvtimestamp_t timestamp() const;
inline size_t size() const;
inline int ncol() const;
inline O column_length(int i) const;
inline Str col(int i) const;
inline Str row_string() const;
template <typename ALLOC> inline void deallocate(ALLOC& ti);
template <typename ALLOC> inline void deallocate_rcu(ALLOC& ti);
template <typename ALLOC>
value_bag<O>* update(const Json* first, const Json* last, kvtimestamp_t ts,
ALLOC& ti) const;
template <typename ALLOC>
inline value_bag<O>* update(int col, Str value,
kvtimestamp_t ts, ALLOC& ti) const;
template <typename ALLOC>
static value_bag<O>* create(const Json* first, const Json* last,
kvtimestamp_t ts, ALLOC& ti);
template <typename ALLOC>
static value_bag<O>* create1(Str value, kvtimestamp_t ts, ALLOC& ti);
template <typename ALLOC>
inline void deallocate_rcu_after_update(const Json* first, const Json* last, ALLOC& ti);
template <typename ALLOC>
inline void deallocate_after_failed_update(const Json* first, const Json* last, ALLOC& ti);
template <typename PARSER, typename ALLOC>
static value_bag<O>* checkpoint_read(PARSER& par, kvtimestamp_t ts,
ALLOC& ti);
template <typename UNPARSER>
inline void checkpoint_write(UNPARSER& unpar) const;
void print(FILE* f, const char* prefix, int indent, Str key,
kvtimestamp_t initial_ts, const char* suffix = "");
private:
kvtimestamp_t ts_;
bagdata d_;
};
template <typename O>
inline value_bag<O>::value_bag()
: ts_(0) {
d_.ncol_ = 0;
d_.pos_[0] = sizeof(bagdata);
}
template <typename O>
inline kvtimestamp_t value_bag<O>::timestamp() const {
return ts_;
}
template <typename O>
inline size_t value_bag<O>::size() const {
return sizeof(kvtimestamp_t) + d_.pos_[d_.ncol_];
}
template <typename O>
inline int value_bag<O>::ncol() const {
return d_.ncol_;
}
template <typename O>
inline O value_bag<O>::column_length(int i) const {
return d_.pos_[i + 1] - d_.pos_[i];
}
template <typename O>
inline lcdf::Str value_bag<O>::col(int i) const {
if (unsigned(i) < unsigned(d_.ncol_))
return Str(d_.s_ + d_.pos_[i], column_length(i));
else
return Str();
}
template <typename O>
inline lcdf::Str value_bag<O>::row_string() const {
return Str(d_.s_, d_.pos_[d_.ncol_]);
}
template <typename O> template <typename ALLOC>
inline void value_bag<O>::deallocate(ALLOC& ti) {
ti.deallocate(this, size(), memtag_value);
}
template <typename O> template <typename ALLOC>
inline void value_bag<O>::deallocate_rcu(ALLOC& ti) {
ti.deallocate_rcu(this, size(), memtag_value);
}
// prerequisite: [first, last) is an array [column, value, column, value, ...]
// each column is unsigned; the columns are strictly increasing;
// each value is a string
template <typename O> template <typename ALLOC>
value_bag<O>* value_bag<O>::update(const Json* first, const Json* last,
kvtimestamp_t ts, ALLOC& ti) const
{
size_t sz = size();
unsigned ncol = d_.ncol_;
for (auto it = first; it != last; it += 2) {
unsigned idx = it[0].as_u();
sz += it[1].as_s().length();
if (idx < d_.ncol_)
sz -= column_length(idx);
else
ncol = idx + 1;
}
if (ncol > d_.ncol_)
sz += (ncol - d_.ncol_) * sizeof(offset_type);
value_bag<O>* row = (value_bag<O>*) ti.allocate(sz, memtag_value);
row->ts_ = ts;
// Minor optimization: Replacing one small column without changing length
if (ncol == d_.ncol_ && sz == size() && first + 2 == last
&& first[1].as_s().length() <= 16) {
memcpy(row->d_.s_, d_.s_, sz - sizeof(kvtimestamp_t));
memcpy(row->d_.s_ + d_.pos_[first[0].as_u()],
first[1].as_s().data(), first[1].as_s().length());
return row;
}
// Otherwise need to do more work
row->d_.ncol_ = ncol;
sz = sizeof(bagdata) + ncol * sizeof(offset_type);
unsigned col = 0;
while (1) {
unsigned this_col = (first != last ? first[0].as_u() : ncol);
// copy data from old row
if (col != this_col && col < d_.ncol_) {
unsigned end_col = std::min(this_col, unsigned(d_.ncol_));
ssize_t delta = sz - d_.pos_[col];
if (delta == 0)
memcpy(row->d_.pos_ + col, d_.pos_ + col,
sizeof(offset_type) * (end_col - col));
else
for (unsigned i = col; i < end_col; ++i)
row->d_.pos_[i] = d_.pos_[i] + delta;
size_t amt = d_.pos_[end_col] - d_.pos_[col];
memcpy(row->d_.s_ + sz, d_.s_ + d_.pos_[col], amt);
sz += amt;
col = end_col;
}
// mark empty columns if we're extending
while (col != this_col) {
row->d_.pos_[col] = sz;
++col;
}
if (col == ncol)
break;
// copy data from change
row->d_.pos_[col] = sz;
Str val = first[1].as_s();
memcpy(row->d_.s_ + sz, val.data(), val.length());
sz += val.length();
first += 2;
++col;
}
row->d_.pos_[ncol] = sz;
return row;
}
template <typename O> template <typename ALLOC>
inline value_bag<O>* value_bag<O>::update(int col, Str value, kvtimestamp_t ts,
ALLOC& ti) const {
Json change[2] = {Json(col), Json(value)};
return update(&change[0], &change[2], ts, ti);
}
template <typename O> template <typename ALLOC>
inline value_bag<O>* value_bag<O>::create(const Json* first, const Json* last,
kvtimestamp_t ts, ALLOC& ti) {
value_bag<O> empty;
return empty.update(first, last, ts, ti);
}
template <typename O> template <typename ALLOC>
inline value_bag<O>* value_bag<O>::create1(Str str, kvtimestamp_t ts,
ALLOC& ti) {
value_bag<O>* row = (value_bag<O>*) ti.allocate(sizeof(kvtimestamp_t) + sizeof(bagdata) + sizeof(O) + str.length(), memtag_value);
row->ts_ = ts;
row->d_.ncol_ = 1;
row->d_.pos_[0] = sizeof(bagdata) + sizeof(O);
row->d_.pos_[1] = sizeof(bagdata) + sizeof(O) + str.length();
memcpy(row->d_.s_ + row->d_.pos_[0], str.data(), str.length());
return row;
}
template <typename O> template <typename ALLOC>
inline void value_bag<O>::deallocate_rcu_after_update(const Json*, const Json*, ALLOC& ti) {
deallocate_rcu(ti);
}
template <typename O> template <typename ALLOC>
inline void value_bag<O>::deallocate_after_failed_update(const Json*, const Json*, ALLOC& ti) {
deallocate(ti);
}
template <typename O> template <typename PARSER, typename ALLOC>
inline value_bag<O>* value_bag<O>::checkpoint_read(PARSER& par,
kvtimestamp_t ts,
ALLOC& ti) {
Str value;
par >> value;
value_bag<O>* row = (value_bag<O>*) ti.allocate(sizeof(kvtimestamp_t) + value.length(), memtag_value);
row->ts_ = ts;
memcpy(row->d_.s_, value.data(), value.length());
return row;
}
template <typename O> template <typename UNPARSER>
inline void value_bag<O>::checkpoint_write(UNPARSER& unpar) const {
unpar << Str(d_.s_, d_.pos_[d_.ncol_]);
}
template <typename O>
void value_bag<O>::print(FILE *f, const char *prefix, int indent,
Str key, kvtimestamp_t initial_ts,
const char *suffix)
{
kvtimestamp_t adj_ts = timestamp_sub(ts_, initial_ts);
if (d_.ncol_ == 1)
fprintf(f, "%s%*s%.*s = %.*s @" PRIKVTSPARTS "%s\n", prefix, indent, "",
key.len, key.s, d_.pos_[1] - d_.pos_[0], d_.s_ + d_.pos_[0],
KVTS_HIGHPART(adj_ts), KVTS_LOWPART(adj_ts), suffix);
else {
fprintf(f, "%s%*s%.*s = [", prefix, indent, "", key.len, key.s);
for (int col = 0; col < d_.ncol_; ++col) {
int pos = d_.pos_[col], len = std::min(40, d_.pos_[col + 1] - pos);
fprintf(f, col ? "|%.*s" : "%.*s", len, d_.s_ + pos);
}
fprintf(f, "] @" PRIKVTSPARTS "%s\n",
KVTS_HIGHPART(adj_ts), KVTS_LOWPART(adj_ts), suffix);
}
}
#endif