/* Licensed to the Apache Software Foundation (ASF) under one or more
* contributor license agreements. See the NOTICE file distributed with
* this work for additional information regarding copyright ownership.
* The ASF licenses this file to You under the Apache License, Version 2.0
* (the "License"); you may not use this file except in compliance with
* the License. You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
#define C_LUCY_SORTWRITER
#define C_LUCY_COUNTER
#include "Lucy/Util/ToolSet.h"
#include <math.h>
#include "Lucy/Index/SortWriter.h"
#include "Lucy/Index/Inverter.h"
#include "Lucy/Index/PolyReader.h"
#include "Lucy/Index/Segment.h"
#include "Lucy/Index/SegReader.h"
#include "Lucy/Index/Snapshot.h"
#include "Lucy/Index/SortCache.h"
#include "Lucy/Index/SortFieldWriter.h"
#include "Lucy/Index/SortReader.h"
#include "Lucy/Plan/FieldType.h"
#include "Lucy/Plan/Schema.h"
#include "Lucy/Store/Folder.h"
#include "Lucy/Store/InStream.h"
#include "Lucy/Store/OutStream.h"
#include "Clownfish/Util/Memory.h"
#include "Clownfish/Util/SortUtils.h"
int32_t SortWriter_current_file_format = 3;
static size_t default_mem_thresh = 0x400000; // 4 MB
SortWriter*
SortWriter_new(Schema *schema, Snapshot *snapshot, Segment *segment,
PolyReader *polyreader) {
SortWriter *self = (SortWriter*)Class_Make_Obj(SORTWRITER);
return SortWriter_init(self, schema, snapshot, segment, polyreader);
}
SortWriter*
SortWriter_init(SortWriter *self, Schema *schema, Snapshot *snapshot,
Segment *segment, PolyReader *polyreader) {
uint32_t field_max = Schema_Num_Fields(schema) + 1;
DataWriter_init((DataWriter*)self, schema, snapshot, segment, polyreader);
SortWriterIVARS *const ivars = SortWriter_IVARS(self);
// Init.
ivars->field_writers = VA_new(field_max);
ivars->counts = Hash_new(0);
ivars->null_ords = Hash_new(0);
ivars->ord_widths = Hash_new(0);
ivars->temp_ord_out = NULL;
ivars->temp_ix_out = NULL;
ivars->temp_dat_out = NULL;
ivars->counter = Counter_new();
ivars->mem_thresh = default_mem_thresh;
ivars->flush_at_finish = false;
return self;
}
void
SortWriter_Destroy_IMP(SortWriter *self) {
SortWriterIVARS *const ivars = SortWriter_IVARS(self);
DECREF(ivars->field_writers);
DECREF(ivars->counts);
DECREF(ivars->null_ords);
DECREF(ivars->ord_widths);
DECREF(ivars->temp_ord_out);
DECREF(ivars->temp_ix_out);
DECREF(ivars->temp_dat_out);
DECREF(ivars->counter);
SUPER_DESTROY(self, SORTWRITER);
}
void
SortWriter_set_default_mem_thresh(size_t mem_thresh) {
default_mem_thresh = mem_thresh;
}
static SortFieldWriter*
S_lazy_init_field_writer(SortWriter *self, int32_t field_num) {
SortWriterIVARS *const ivars = SortWriter_IVARS(self);
SortFieldWriter *field_writer
= (SortFieldWriter*)VA_Fetch(ivars->field_writers, field_num);
if (!field_writer) {
// Open temp files.
if (!ivars->temp_ord_out) {
Folder *folder = ivars->folder;
String *seg_name = Seg_Get_Name(ivars->segment);
String *ord_path = Str_newf("%o/sort_ord_temp", seg_name);
ivars->temp_ord_out = Folder_Open_Out(folder, ord_path);
DECREF(ord_path);
if (!ivars->temp_ord_out) {
RETHROW(INCREF(Err_get_error()));
}
String *ix_path = Str_newf("%o/sort_ix_temp", seg_name);
ivars->temp_ix_out = Folder_Open_Out(folder, ix_path);
DECREF(ix_path);
if (!ivars->temp_ix_out) {
RETHROW(INCREF(Err_get_error()));
}
String *dat_path = Str_newf("%o/sort_dat_temp", seg_name);
ivars->temp_dat_out = Folder_Open_Out(folder, dat_path);
DECREF(dat_path);
if (!ivars->temp_dat_out) {
RETHROW(INCREF(Err_get_error()));
}
}
String *field = Seg_Field_Name(ivars->segment, field_num);
field_writer
= SortFieldWriter_new(ivars->schema, ivars->snapshot, ivars->segment,
ivars->polyreader, field, ivars->counter,
ivars->mem_thresh, ivars->temp_ord_out,
ivars->temp_ix_out, ivars->temp_dat_out);
VA_Store(ivars->field_writers, field_num, (Obj*)field_writer);
}
return field_writer;
}
void
SortWriter_Add_Inverted_Doc_IMP(SortWriter *self, Inverter *inverter,
int32_t doc_id) {
SortWriterIVARS *const ivars = SortWriter_IVARS(self);
int32_t field_num;
Inverter_Iterate(inverter);
while (0 != (field_num = Inverter_Next(inverter))) {
FieldType *type = Inverter_Get_Type(inverter);
if (FType_Sortable(type)) {
SortFieldWriter *field_writer
= S_lazy_init_field_writer(self, field_num);
SortFieldWriter_Add(field_writer, doc_id,
Inverter_Get_Value(inverter));
}
}
// If our SortFieldWriters have collectively passed the memory threshold,
// flush all of them, then reset the counter which tracks memory
// consumption.
if (Counter_Get_Value(ivars->counter) > ivars->mem_thresh) {
for (uint32_t i = 0; i < VA_Get_Size(ivars->field_writers); i++) {
SortFieldWriter *const field_writer
= (SortFieldWriter*)VA_Fetch(ivars->field_writers, i);
if (field_writer) { SortFieldWriter_Flush(field_writer); }
}
Counter_Reset(ivars->counter);
ivars->flush_at_finish = true;
}
}
void
SortWriter_Add_Segment_IMP(SortWriter *self, SegReader *reader,
I32Array *doc_map) {
SortWriterIVARS *const ivars = SortWriter_IVARS(self);
VArray *fields = Schema_All_Fields(ivars->schema);
// Proceed field-at-a-time, rather than doc-at-a-time.
for (uint32_t i = 0, max = VA_Get_Size(fields); i < max; i++) {
String *field = (String*)VA_Fetch(fields, i);
SortReader *sort_reader = (SortReader*)SegReader_Fetch(
reader, Class_Get_Name(SORTREADER));
SortCache *cache = sort_reader
? SortReader_Fetch_Sort_Cache(sort_reader, field)
: NULL;
if (cache) {
int32_t field_num = Seg_Field_Num(ivars->segment, field);
SortFieldWriter *field_writer
= S_lazy_init_field_writer(self, field_num);
SortFieldWriter_Add_Segment(field_writer, reader, doc_map, cache);
ivars->flush_at_finish = true;
}
}
DECREF(fields);
}
void
SortWriter_Finish_IMP(SortWriter *self) {
SortWriterIVARS *const ivars = SortWriter_IVARS(self);
VArray *const field_writers = ivars->field_writers;
// If we have no data, bail out.
if (!ivars->temp_ord_out) { return; }
// If we've either flushed or added segments, flush everything so that any
// one field can use the entire margin up to mem_thresh.
if (ivars->flush_at_finish) {
for (uint32_t i = 1, max = VA_Get_Size(field_writers); i < max; i++) {
SortFieldWriter *field_writer
= (SortFieldWriter*)VA_Fetch(field_writers, i);
if (field_writer) {
SortFieldWriter_Flush(field_writer);
}
}
}
// Close down temp streams.
OutStream_Close(ivars->temp_ord_out);
OutStream_Close(ivars->temp_ix_out);
OutStream_Close(ivars->temp_dat_out);
for (uint32_t i = 1, max = VA_Get_Size(field_writers); i < max; i++) {
SortFieldWriter *field_writer
= (SortFieldWriter*)VA_Delete(field_writers, i);
if (field_writer) {
String *field = Seg_Field_Name(ivars->segment, i);
SortFieldWriter_Flip(field_writer);
int32_t count = SortFieldWriter_Finish(field_writer);
Hash_Store(ivars->counts, (Obj*)field,
(Obj*)Str_newf("%i32", count));
int32_t null_ord = SortFieldWriter_Get_Null_Ord(field_writer);
if (null_ord != -1) {
Hash_Store(ivars->null_ords, (Obj*)field,
(Obj*)Str_newf("%i32", null_ord));
}
int32_t ord_width = SortFieldWriter_Get_Ord_Width(field_writer);
Hash_Store(ivars->ord_widths, (Obj*)field,
(Obj*)Str_newf("%i32", ord_width));
}
DECREF(field_writer);
}
VA_Clear(field_writers);
// Store metadata.
Seg_Store_Metadata_Utf8(ivars->segment, "sort", 4,
(Obj*)SortWriter_Metadata(self));
// Clean up.
Folder *folder = ivars->folder;
String *seg_name = Seg_Get_Name(ivars->segment);
String *ord_path = Str_newf("%o/sort_ord_temp", seg_name);
Folder_Delete(folder, ord_path);
DECREF(ord_path);
String *ix_path = Str_newf("%o/sort_ix_temp", seg_name);
Folder_Delete(folder, ix_path);
DECREF(ix_path);
String *dat_path = Str_newf("%o/sort_dat_temp", seg_name);
Folder_Delete(folder, dat_path);
DECREF(dat_path);
}
Hash*
SortWriter_Metadata_IMP(SortWriter *self) {
SortWriterIVARS *const ivars = SortWriter_IVARS(self);
SortWriter_Metadata_t super_meta
= (SortWriter_Metadata_t)SUPER_METHOD_PTR(SORTWRITER,
LUCY_SortWriter_Metadata);
Hash *const metadata = super_meta(self);
Hash_Store_Utf8(metadata, "counts", 6, INCREF(ivars->counts));
Hash_Store_Utf8(metadata, "null_ords", 9, INCREF(ivars->null_ords));
Hash_Store_Utf8(metadata, "ord_widths", 10, INCREF(ivars->ord_widths));
return metadata;
}
int32_t
SortWriter_Format_IMP(SortWriter *self) {
UNUSED_VAR(self);
return SortWriter_current_file_format;
}
/*************************************************************************/
Counter*
Counter_new() {
Counter *self = (Counter*)Class_Make_Obj(COUNTER);
return Counter_init(self);
}
Counter*
Counter_init(Counter *self) {
CounterIVARS *ivars = Counter_IVARS(self);
ivars->value = 0;
return self;
}
int64_t
Counter_Add_IMP(Counter *self, int64_t amount) {
CounterIVARS *ivars = Counter_IVARS(self);
ivars->value += amount;
return ivars->value;
}
int64_t
Counter_Get_Value_IMP(Counter *self) {
return Counter_IVARS(self)->value;
}
void
Counter_Reset_IMP(Counter *self) {
Counter_IVARS(self)->value = 0;
}