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585 lines (556 loc) · 18.6 KB
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-- FIDATA. Open-source system for analysis of financial and economic data
-- Copyright © 2012-2013 Basil Peace
/*
This file is part of FIDATA.
FIDATA is free software: you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation, either version 3 of the License, or
(at your option) any later version.
FIDATA is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU General Public License for more details.
You should have received a copy of the GNU General Public License
along with FIDATA. If not, see <http://www.gnu.org/licenses/>.
*/
-------------------------------------------------------------------------------
-- DATA SET CONVERTORS --
-------------------------------------------------------------------------------
CREATE FUNCTION procs.build_deals_ds(src_ds_id bigint) RETURNS bigint
LANGUAGE plpgsql VOLATILE RETURNS NULL ON NULL INPUT
AS $$
DECLARE
dst_ds_id bigint;
src_t name;
BEGIN
IF get_ds_object_type(src_ds_id) IS DISTINCT FROM 'Order' THEN
RAISE EXCEPTION 'Object type of source data set is not Order';
END IF;
src_t := get_ds_table_name(src_ds_id);
dst_ds_id := create_dst_ds(src_ds_id, 'Object', 'Deal', NULL, NULL, NULL);
PERFORM create_ds_table(dst_ds_id);
EXECUTE
get_data_insert_query(dst_ds_id)||'
SELECT
dst_ds_id,
avg(moment),
deal_id,
(SELECT deal_direction FROM '||src_t||' WHERE deal_id = src_t.deal_id ORDER BY moment DESC, id DESC LIMIT 1) AS deal_direction,
avg(deal_price),
avg(volume)
FROM
'||src_t||' AS src_t
WHERE
(order_action = ''Execution'')
OR deal_id IS NOT NULL
GROUP BY
deal_id
ORDER BY
avg(moment),
min(id)
;
';
RETURN dst_ds_id;
END
$$;
CREATE FUNCTION procs.build_moment_bid_ds(src_ds_id bigint) RETURNS bigint
LANGUAGE plpgsql VOLATILE RETURNS NULL ON NULL INPUT
AS $$
DECLARE
dst_ds_id bigint;
src_t name;
BEGIN
IF get_ds_object_type(src_ds_id) IS DISTINCT FROM 'Order' THEN
RAISE EXCEPTION 'Object type of source data set is not Order';
END IF;
src_t := get_ds_table_name(src_ds_id);
dst_ds_id := create_dst_ds(src_ds_id, 'Moment', NULL, NULL, NULL, NULL);
INSERT INTO data_set_fields(ds, field, base_field, src_field) VALUES
(dst_ds_id, 'bid_price', NULL, NULL),
(dst_ds_id, 'volume', NULL, NULL),
(dst_ds_id, 'sum', NULL, NULL)
;
PERFORM create_ds_table(dst_ds_id);
EXECUTE
get_data_insert_query(dst_ds_id)||'
SELECT
dst_ds_id,
moment,
deal_price,
volume,
deal_price * volume AS sum
FROM
'||src_t||'
WHERE
(order_action = ''Execution'')
AND (deal_direction = ''Sell'')
ORDER BY
moment,
id
;
';
RETURN dst_ds_id;
END
$$;
CREATE FUNCTION procs.build_moment_ask_ds(src_ds_id bigint) RETURNS bigint
LANGUAGE plpgsql VOLATILE RETURNS NULL ON NULL INPUT
AS $$
DECLARE
dst_ds_id bigint;
src_t name;
BEGIN
IF get_ds_object_type(src_ds_id) IS DISTINCT FROM 'Order' THEN
RAISE EXCEPTION 'Object type of source data set is not Order';
END IF;
src_t := get_ds_table_name(src_ds_id);
dst_ds_id := create_dst_ds(src_ds_id, 'Moment', NULL, NULL, NULL, NULL);
INSERT INTO data_set_fields(ds, field, base_field, src_field) VALUES
(dst_ds_id, 'ask_price', NULL, NULL),
(dst_ds_id, 'volume', NULL, NULL),
(dst_ds_id, 'sum', NULL, NULL)
;
PERFORM create_ds_table(dst_ds_id);
EXECUTE
get_data_insert_query(dst_ds_id)||'
SELECT
dst_ds_id,
moment,
deal_price,
volume,
deal_price * volume AS sum
FROM
'||src_t||'
WHERE
(order_action = ''Execution'')
AND (deal_direction = ''Buy'')
ORDER BY
moment,
id
;
';
RETURN dst_ds_id;
END
$$;
CREATE FUNCTION procs.build_interval_ds(src_ds_id bigint, open_moment time_moment, timeframe character varying(3)) RETURNS bigint
LANGUAGE plpgsql VOLATILE
AS $$
DECLARE
close_moment time_moment;
dst_ds_id bigint;
src_t name;
insert_fields_query text[] = ARRAY[];
src_column_names text[] = ARRAY['dst_ds_id', 'open_moment', 'close_moment'];
insert_query text;
i RECORD;
BEGIN
IF get_ds_ts_type(src_ds_id) IS DISTINCT FROM 'Moment' /*ANY ('Moment', 'Interval')*/ THEN
RAISE EXCEPTION 'Type of time series of source data set is not Moment';
END IF;
/*IF get_ds_timeframe(src_ds_id) >= timeframe THEN
RAISE EXCEPTION 'Timeframe of source data set should be less than timeframe of destination data set';
END IF;*/
src_t := get_ds_table_name(src_ds_id);
EXECUTE 'SELECT max(moment) FROM '||src_t INTO close_moment;
dst_ds_id := create_dst_ds(src_ds_id, 'Interval', NULL, timeframe, NULL, NULL);
FOR i IN
SELECT
src_ds_fields.id AS src_field,
src_ds_fields.field AS base_field_name,
dst_ds_fields.name AS field_name,
get_column_name(dst_ds_fields.name, src_ds_fields.field, src_ds_fields.id) AS dst_field_name
FROM
(
SELECT
id AS id,
field AS field
FROM
data_set_fields
WHERE
(ds = src_ds_id)
AND field IN (SELECT name FROM data_fields WHERE data_field_class IS DISTINCT FROM 'Flows')
) AS src_ds_fields
INNER JOIN
(
SELECT
name
FROM
data_fields
WHERE
(data_fields.ts_type = 'Interval')
AND (field_class = 'Stocks')
) AS dst_ds_fields
ON
TRUE
LOOP
CASE i.field_name
WHEN 'open' THEN
src_column_names := src_column_names || ('(SELECT '||i.base_field_name||' FROM '||src_t||'WHERE (moment >= open_moment) AND (moment < close_moment) ORDER BY moment ASC, id ASC LIMIT 1) AS '||i.dst_field_name);
WHEN 'high' THEN
src_column_names := src_column_names || ('max('||i.base_field_name||') AS '||i.dst_field_name);
WHEN 'low' THEN
src_column_names := src_column_names || ('min('||i.base_field_name||') AS '||i.dst_field_name);
WHEN 'close' THEN
src_column_names := src_column_names || ('(SELECT '||i.base_field_name||' FROM '||src_t||'WHERE (moment >= open_moment) AND (moment < close_moment) ORDER BY moment DESC, id DESC LIMIT 1) AS '||i.dst_field_name);
ELSE
CONTINUE;
END CASE;
insert_fields_query := insert_fields_query || ('('||dst_ds_id||', '||i.field_name||', '||i.base_field_name||', '||i.src_field||')');
END LOOP;
FOR i IN
SELECT
src_ds_fields.id AS src_field,
src_ds_fields.field AS base_field_name,
dst_ds_fields.name AS field_name,
get_column_name(dst_ds_fields.name, src_ds_fields.field, src_ds_fields.id) AS dst_field_name
FROM
(
SELECT
id AS id,
field AS field,
get_scale_type(get_data_field_type(field, base_field, src_field)) AS scale_type
FROM
data_set_fields
WHERE
(ds = src_ds_id)
AND field IN (SELECT name FROM data_fields WHERE field_class IS DISTINCT FROM 'Flows')
) AS src_ds_fields
INNER JOIN
(
SELECT
name,
aggregatable_scale_types
FROM
data_fields
WHERE
(data_fields.ts_type = 'Interval')
AND (field_class = 'Flows')
) AS dst_ds_fields
ON
src_ds_fields.scale_type = ANY (dst_ds_fields.aggregatable_scale_types)
UNION
VALUES (NULL, NULL, 'number')
LOOP
CASE i.field_name
WHEN 'sum' THEN
src_column_names := src_column_names || ('sum('||i.base_field_name||') AS '||i.dst_field_name);
WHEN 'number' THEN
src_column_names := src_column_names || ('count(id) AS '||i.dst_field_name);
ELSE
CONTINUE;
END CASE;
insert_fields_query := insert_fields_query || ('('||dst_ds_id||', '||i.field_name||', '||i.base_field||', '||i.src_field||')');
END LOOP;
EXECUTE
'INSERT INTO data_set_fields(ds, field, base_field, src_field) VALUES
'||array_to_string(insert_fields_query, ', ')
;
PERFORM create_ds_table(dst_ds_id);
insert_query := get_data_insert_query(dst_ds_id);
WHILE open_moment <= close_moment LOOP
EXECUTE '
WITH select_interval(open_moment, close_moment) AS (
SELECT
'||array_to_string(src_column_names, ', ')||'
FROM
'||src_t||'
WHERE
(moment >= open_moment)
AND (moment < close_moment)
)
'||insert_query||'
SELECT * FROM select_interval($1, $2)'
USING
open_moment,
open_moment + timeframe
;
open_moment := open_moment + timeframe;
END LOOP;
RETURN dst_ds_id;
END
$$;
CREATE FUNCTION procs.build_chained_changes_ds(src_ds_id bigint, lag int) RETURNS bigint
LANGUAGE plpgsql VOLATILE RETURNS NULL ON NULL INPUT
AS $$
DECLARE
src_ds_ts_type time_series_type;
timeframe character varying(3);
dst_ds_id bigint;
src_t name;
insert_fields_query text[] = '{}';
src_column_names text[] = '{}';
select_order_field text;
select_query text;
insert_query text;
aggregate_statement text[];
i RECORD;
BEGIN
IF NOT (lag > 0) THEN
RAISE EXCEPTION 'Lag should be defined and be positive';
END IF;
SELECT data_sets.ts_type, data_sets.timeframe FROM data_sets WHERE id = src_ds_id INTO STRICT src_ds_ts_type, timeframe;
src_t := get_ds_table_name(src_ds_id);
IF src_ds_ts_type = 'Moment' THEN
dst_ds_id := create_dst_ds(src_ds_id, 'Interval', NULL, NULL, lag, NULL);
aggregate_statement := ARRAY[dst_ds_id::text, 'base_data.close_moment', 'curr_data.open_moment'];
-- select_query_parts := ARRAY['moment'];
select_order_field = 'moment';
FOR i IN
SELECT
src_ds_fields.id AS src_field,
src_ds_fields.field AS base_field,
dst_ds_fields.name AS field_name,
src_ds_fields.column_name::text AS src_column_name,
-- get_column_name(dst_ds_fields.name, src_ds_fields.field, src_ds_fields.id) AS dst_column_name,
get_dbms_type(get_field_type(dst_ds_fields.name, src_ds_fields.field, src_ds_fields.id)) AS dbms_type
FROM
(
SELECT
id AS id,
field AS field,
get_column_name(field, base_field, src_field) AS column_name,
get_scale_type(get_data_field_type(field, base_field, src_field)) AS scale_type
FROM
data_set_fields
WHERE
(ds = src_ds_id)
AND field IN (SELECT name FROM data_fields WHERE field_class IS DISTINCT FROM 'Stocks')
) AS src_ds_fields
INNER JOIN
(
SELECT
name,
aggregatable_scale_types
FROM
data_fields
WHERE
(data_fields.ts_type = 'Interval')
AND (field_class = 'Flows')
) AS dst_ds_fields
ON
src_ds_fields.scale_type = ANY (dst_ds_fields.aggregatable_scale_types)
/*UNION
VALUES (NULL, NULL, 'number')*/
LOOP
CASE i.field_name
WHEN 'absolute_increase' THEN
aggregate_statement := aggregate_statement || (
'curr_data.'||i.src_column_name||' - base_data.'||i.src_column_name
);
WHEN 'growth_rate' THEN
aggregate_statement := aggregate_statement || (
'CASE
WHEN (base_data.'||i.src_column_name||' <> 0) THEN
CAST(curr_data.'||i.src_column_name||' AS '||i.dbms_type||') / base_data.'||i.src_column_name||'
WHEN (curr_data.'||i.src_column_name||' = 0) AND (base_data.'||i.src_column_name||' = 0) THEN
CAST(''NaN'' AS '||i.dbms_type||')
ELSE
CAST(''Infinity'' AS '||i.dbms_type||') * sign(curr_data.'||i.src_column_name||')
END'
);
WHEN 'increase_rate' THEN
aggregate_statement := aggregate_statement || (
'CASE
WHEN (base_data.'||i.src_column_name||' <> 0) THEN
CAST(curr_data.'||i.src_column_name||' AS '||i.dbms_type||') / base_data.'||i.src_column_name||' - 1
WHEN (curr_data.'||i.src_column_name||' = 0) AND (base_data.'||i.src_column_name||' = 0) THEN
CAST(''NaN'' AS '||i.dbms_type||')
ELSE
CAST(''Infinity'' AS '||i.dbms_type||') * sign(curr_data.'||i.src_column_name||')
END'
);
WHEN 'ln_growth_rate' THEN
aggregate_statement := aggregate_statement || (
'CASE
WHEN (curr_data.'||i.src_column_name||' * base_data.'||i.src_column_name||' > 0) THEN
ln(CAST(curr_data.'||i.src_column_name||' AS '||i.dbms_type||') / base_data.'||i.src_column_name||')
WHEN (curr_data.'||i.src_column_name||' = 0) AND (base_data.'||i.src_column_name||' > 0) THEN
CAST(''-Infinity'' AS '||i.dbms_type||')
WHEN (curr_data.'||i.src_column_name||' > 0) AND (base_data.'||i.src_column_name||' = 0) THEN
CAST(''Infinity'' AS '||i.dbms_type||')
ELSE
CAST(''NaN'' AS '||i.dbms_type||')
END'
);
WHEN 'one_percent_of_increase' THEN
aggregate_statement := aggregate_statement || (
'base_data.'||i.src_column_name||' / 100.0' -- Cast ? -- TODO
);
ELSE
CONTINUE;
END CASE;
src_column_names := src_column_names || i.src_column_name;
insert_fields_query := insert_fields_query || ('('||dst_ds_id||', '''||i.field_name||''', '''||i.base_field||''', '||i.src_field||')');
END LOOP;
ELSIF src_ds_ts_type = 'Interval' THEN
dst_ds_id := create_dst_ds(src_ds_id, 'Interval', NULL, timeframe, lag, NULL);
aggregate_statement := ARRAY[dst_ds_id::text, 'base_data.close_moment', 'curr_data.open_moment'];
-- select_query_parts := ARRAY['open_moment', 'close_moment'];
select_order_field = 'close_moment';
FOR i IN
SELECT
src_ds_fields.id AS src_field,
src_ds_fields.field AS base_field,
dst_ds_fields.name AS field_name,
src_ds_fields.column_name::text AS src_column_name,
-- get_column_name(dst_ds_fields.name, src_ds_fields.field, src_ds_fields.id) AS dst_column_name,
get_dbms_type(get_field_type(dst_ds_fields.name, src_ds_fields.field, src_ds_fields.id)) AS dbms_type
FROM
(
SELECT
id AS id,
field AS field,
get_column_name(field, base_field, src_field) AS column_name,
get_scale_type(get_data_field_type(field, base_field, src_field)) AS scale_type
FROM
data_set_fields
WHERE
(ds = src_ds_id)
AND field IN (SELECT name FROM data_fields WHERE field_class IS DISTINCT FROM 'Flows')
) AS src_ds_fields
INNER JOIN
(
SELECT
name,
aggregatable_scale_types
FROM
data_fields
WHERE
(data_fields.ts_type = 'Interval')
AND (field_class = 'Flows')
) AS dst_ds_fields
ON
src_ds_fields.scale_type = ANY (dst_ds_fields.aggregatable_scale_types)
/*UNION
VALUES (NULL, NULL, 'number')*/
LOOP
CASE i.field_name
WHEN 'absolute_increase' THEN
aggregate_statement := aggregate_statement || (
'curr_data.'||i.src_column_name||' - base_data.'||i.src_column_name
);
WHEN 'growth_rate' THEN
aggregate_statement := aggregate_statement || (
'CASE
WHEN (base_data.'||i.src_column_name||' <> 0) THEN
CAST(curr_data.'||i.src_column_name||' AS '||i.dbms_type||') / base_data.'||i.src_column_name||'
WHEN (curr_data.'||i.src_column_name||' = 0) AND (base_data.'||i.src_column_name||' = 0) THEN
CAST(''NaN'' AS '||i.dbms_type||')
ELSE
CAST(''Infinity'' AS '||i.dbms_type||') * sign(curr_data.'||i.src_column_name||')
END'
);
WHEN 'increase_rate' THEN
aggregate_statement := aggregate_statement || (
'CASE
WHEN (base_data.'||i.src_column_name||' <> 0) THEN
CAST(curr_data.'||i.src_column_name||' AS '||i.dbms_type||') / base_data.'||i.src_column_name||' - 1
WHEN (curr_data.'||i.src_column_name||' = 0) AND (base_data.'||i.src_column_name||' = 0) THEN
CAST(''NaN'' AS '||i.dbms_type||')
ELSE
CAST(''Infinity'' AS '||i.dbms_type||') * sign(curr_data.'||i.src_column_name||')
END'
);
WHEN 'ln_growth_rate' THEN
aggregate_statement := aggregate_statement || (
'CASE
WHEN (curr_data.'||i.src_column_name||' * base_data.'||i.src_column_name||' > 0) THEN
ln(CAST(curr_data.'||i.src_column_name||' AS '||i.dbms_type||') / base_data.'||i.src_column_name||')
WHEN (curr_data.'||i.src_column_name||' = 0) AND (base_data.'||i.src_column_name||' > 0) THEN
CAST(''-Infinity'' AS '||i.dbms_type||')
WHEN (curr_data.'||i.src_column_name||' > 0) AND (base_data.'||i.src_column_name||' = 0) THEN
CAST(''Infinity'' AS '||i.dbms_type||')
ELSE
CAST(''NaN'' AS '||i.dbms_type||')
END'
);
WHEN 'one_percent_of_increase' THEN
aggregate_statement := aggregate_statement || (
'base_data.'||i.src_column_name||' / 100.0' -- Cast ? -- TODO
);
ELSE
CONTINUE;
END CASE;
src_column_names := src_column_names || i.src_column_name;
-- IF dst_ds_id IS NULL THEN
-- RAISE EXCEPTION '1';
-- ELSIF i.field_name IS NULL THEN
-- RAISE EXCEPTION '2';
-- ELSIF i.base_field IS NULL THEN
-- RAISE EXCEPTION '3';
-- ELSIF i.src_field IS NULL THEN
-- RAISE EXCEPTION '4';
-- END IF;
insert_fields_query := insert_fields_query || ('('||dst_ds_id||', '''||i.field_name||''', '''||i.base_field||''', '||i.src_field||')');
END LOOP;
ELSE
RAISE EXCEPTION 'Type of time series of source data set is not Moment or Interval';
END IF;
EXECUTE
'INSERT INTO data_set_fields(ds, field, base_field, src_field) VALUES
'||array_to_string(insert_fields_query, ', ')
;
PERFORM create_ds_table(dst_ds_id);
insert_query := get_data_insert_query(dst_ds_id);
select_query :=
'SELECT
'||array_to_string(src_column_names, ', ')||'
FROM
'||src_t||'
ORDER BY
'||select_order_field||' ASC,
id ASC
'
;
EXECUTE '
DO language plpgsql $insert_do$
DECLARE
base_data RECORD;
curr_data RECORD;
base_c refcursor;
curr_c refcursor;
BEGIN
OPEN base_c FOR '||select_query||';
OPEN curr_c FOR '||select_query||';
MOVE RELATIVE '||lag||' FROM curr_c;
WHILE TRUE LOOP
FETCH NEXT FROM curr_c INTO curr_data;
EXIT WHEN NOT FOUND;
FETCH NEXT FROM base_c INTO base_data;
'||insert_query||' VALUES
('||array_to_string(aggregate_statement, ', ')||')
;
END LOOP;
CLOSE curr_c;
CLOSE base_c;
END
$insert_do$;
';
RETURN dst_ds_id;
/* EXECUTE '
PREPARE insert_data(
bigint,
time_moment,
time_moment,
time_interval,
price_type,
double precision,
double precision,
double precision,
price_type
) AS
INSERT INTO '||t||'(
id,
open_moment,
close_moment,
time_change,
absolute_increase,
growth_rate,
ln_growth_rate,
increase_rate,
one_percent_of_increase
) VALUES ($1, $2, $3, $4, $5, $6, $7, $8, $9);
';*/
-- DEALLOCATE insert_data;
END
$$;
-------------------------------------------------------------------------------