aknirmal90

## indexing-transactions-and-addresses.sql
###############################################
Generate unique integer index for a transaction
###############################################
SELECT
  txns.hash as transaction_hash
, (999999 - txns.block_number) as block_index
, (999999 - ROW_NUMBER() OVER (PARTITION BY block_number ORDER BY txns.hash) + 1) as tx_index_in_block
, 1000000 * (999999 - txns.block_number) + (999999 - ROW_NUMBER() OVER (PARTITION BY block_number ORDER BY txns.hash) + 1) as unique_tx_index
FROM `bigquery-public-data.crypto_bitcoin.transactions` as txns

## who-knows-what-this-does.sql
WITH shared_inputs AS (
    SELECT
        ARRAY_TO_STRING(inputs.addresses, '') AS address
    FROM `bigquery-public-data.crypto_bitcoin.transactions` AS txns
        ,   UNNEST(txns.inputs) AS inputs
    WHERE txns.hash IN
    (
        SELECT
            txns.hash as tx_hash
        FROM `bigquery-public-data.crypto_bitcoin.transactions` AS txns

## bq_queries.sql
################################################################################
1. Find number of addresses sending funds to an address
################################################################################

SELECT
    COUNT(DISTINCT ARRAY_TO_STRING(inputs.addresses, '')) AS addresses
,   MIN(block_timestamp) as start_date
FROM `bigquery-public-data.crypto_bitcoin.transactions` AS txns
    ,   UNNEST(txns.outputs) AS outputs
    ,   UNNEST(txns.inputs) AS inputs

## crosscheck_neo4j_etl
1. Cross validate number of blocks
    i)BQ

    SELECT
      COUNT(*) AS num_blocks
    FROM
      `bigquery-public-data.crypto_bitcoin.blocks` AS blocks
    WHERE
      blocks.number <= 300

## neo4j_json_to_csv
cat transactions.json | jq -cr 'del(.inputs, .outputs)' > txns.json
cat transactions.json | jq -cr '{hash: .hash, outputs: .outputs[]} | {hash: .hash, index: .outputs.index, addresses: .outputs.addresses, required_signatures: .outputs.required_signatures, type: .outputs.type, value: .outputs.value}' > outputs.json
cat transactions.json | jq -cr '{hash: .hash, outputs: .outputs[]} | {hash: .hash, index: .outputs.index, addresses: .outputs.addresses[]}' > outputs_addresses.json
cat transactions.json | jq -cr '{hash: .hash, inputs: .inputs[]} | { hash: .hash, index: .inputs.index, spent_transaction_hash: .inputs.spent_transaction_hash, spent_output_index: .inputs.spent_output_index }' > inputs.json

## neo4j-btc-cypher
CREATE INDEX ON :Block(height);
CREATE INDEX ON :Transaction(hash);
CREATE INDEX ON :Output(tx_hash, output_index);
CREATE INDEX ON :Address(address_string);

LOAD CSV WITH HEADERS FROM "http://storage.googleapis.com/bitcoin-neo4j-etl/blocks.csv" AS row
MERGE (b:Block {height: toInt(row.number)})
ON CREATE SET
	b.hash = row.hash,
	b.size = toInt(row.size),

## bqml_miner_features_false_class.sql
WITH miner_addresses AS (
  SELECT
    ARRAY_TO_STRING(outputs.addresses,',') AS miner
  FROM
  `crypto-etl-ethereum-dev.bitcoin_blockchain.blocks` AS blocks,
  `crypto-etl-ethereum-dev.bitcoin_blockchain.transactions` AS transactions JOIN UNNEST(outputs) AS outputs
  WHERE blocks.hash = transactions.block_hash
    AND is_coinbase IS TRUE
    AND ( FALSE
      --

## bqml_miner_features_true_class.sql
WITH miner_addresses AS (
  SELECT
    ARRAY_TO_STRING(outputs.addresses,',') AS miner
  FROM
  `crypto-etl-ethereum-dev.bitcoin_blockchain.blocks` AS blocks,
  `crypto-etl-ethereum-dev.bitcoin_blockchain.transactions` AS transactions JOIN UNNEST(outputs) AS outputs
  WHERE blocks.hash = transactions.block_hash
    AND is_coinbase IS TRUE
    AND ( FALSE
      --

## bqml_miner_feature_vectors.sql
WITH output_stats AS (
  SELECT
      ARRAY_TO_STRING(outputs.addresses,',') AS output_address
  ,   block_timestamp AS output_block_time
  ,   DATE(EXTRACT(YEAR FROM block_timestamp), EXTRACT(MONTH FROM block_timestamp), 1) as output_block_month
  ,   LAG(block_timestamp) OVER (PARTITION BY ARRAY_TO_STRING(outputs.addresses,',') ORDER BY block_timestamp) AS output_prev_block_time
  ,   value
  ,   transaction_hash
  FROM `crypto-etl-ethereum-dev.bitcoin_blockchain.outputs` AS outputs
),

## bqml_normalized_miner_features.sql
WITH
input_metrics AS (
	SELECT
		ARRAY_TO_STRING(inputs.addresses,',') AS address,
		SUM(inputs.value) as value,
		COUNT(inputs.value) as cnt,
		AVG(inputs.value) as mean,
		STDDEV(inputs.value) as std_dev
	FROM `crypto-etl-ethereum-dev.bitcoin_blockchain.transactions` AS transactions JOIN UNNEST(transactions.inputs) AS inputs
	GROUP BY 1
	###############################################
	Generate unique integer index for a transaction
	###############################################
	SELECT
	txns.hash as transaction_hash
	, (999999 - txns.block_number) as block_index
	, (999999 - ROW_NUMBER() OVER (PARTITION BY block_number ORDER BY txns.hash) + 1) as tx_index_in_block
	, 1000000 * (999999 - txns.block_number) + (999999 - ROW_NUMBER() OVER (PARTITION BY block_number ORDER BY txns.hash) + 1) as unique_tx_index
	FROM `bigquery-public-data.crypto_bitcoin.transactions` as txns
	WITH shared_inputs AS (
	SELECT
	ARRAY_TO_STRING(inputs.addresses, '') AS address
	FROM `bigquery-public-data.crypto_bitcoin.transactions` AS txns
	, UNNEST(txns.inputs) AS inputs
	WHERE txns.hash IN
	(
	SELECT
	txns.hash as tx_hash
	FROM `bigquery-public-data.crypto_bitcoin.transactions` AS txns
	################################################################################
	1. Find number of addresses sending funds to an address
	################################################################################

	SELECT
	COUNT(DISTINCT ARRAY_TO_STRING(inputs.addresses, '')) AS addresses
	, MIN(block_timestamp) as start_date
	FROM `bigquery-public-data.crypto_bitcoin.transactions` AS txns
	, UNNEST(txns.outputs) AS outputs
	, UNNEST(txns.inputs) AS inputs
	1. Cross validate number of blocks
	i)BQ

	SELECT
	COUNT(*) AS num_blocks
	FROM
	`bigquery-public-data.crypto_bitcoin.blocks` AS blocks
	WHERE
	blocks.number <= 300
	cat transactions.json \| jq -cr 'del(.inputs, .outputs)' > txns.json
	cat transactions.json \| jq -cr '{hash: .hash, outputs: .outputs[]} \| {hash: .hash, index: .outputs.index, addresses: .outputs.addresses, required_signatures: .outputs.required_signatures, type: .outputs.type, value: .outputs.value}' > outputs.json
	cat transactions.json \| jq -cr '{hash: .hash, outputs: .outputs[]} \| {hash: .hash, index: .outputs.index, addresses: .outputs.addresses[]}' > outputs_addresses.json
	cat transactions.json \| jq -cr '{hash: .hash, inputs: .inputs[]} \| { hash: .hash, index: .inputs.index, spent_transaction_hash: .inputs.spent_transaction_hash, spent_output_index: .inputs.spent_output_index }' > inputs.json
	CREATE INDEX ON :Block(height);
	CREATE INDEX ON :Transaction(hash);
	CREATE INDEX ON :Output(tx_hash, output_index);
	CREATE INDEX ON :Address(address_string);

	LOAD CSV WITH HEADERS FROM "http://storage.googleapis.com/bitcoin-neo4j-etl/blocks.csv" AS row
	MERGE (b:Block {height: toInt(row.number)})
	ON CREATE SET
	b.hash = row.hash,
	b.size = toInt(row.size),
	WITH miner_addresses AS (
	SELECT
	ARRAY_TO_STRING(outputs.addresses,',') AS miner
	FROM
	`crypto-etl-ethereum-dev.bitcoin_blockchain.blocks` AS blocks,
	`crypto-etl-ethereum-dev.bitcoin_blockchain.transactions` AS transactions JOIN UNNEST(outputs) AS outputs
	WHERE blocks.hash = transactions.block_hash
	AND is_coinbase IS TRUE
	AND ( FALSE
	--
	WITH output_stats AS (
	SELECT
	ARRAY_TO_STRING(outputs.addresses,',') AS output_address
	, block_timestamp AS output_block_time
	, DATE(EXTRACT(YEAR FROM block_timestamp), EXTRACT(MONTH FROM block_timestamp), 1) as output_block_month
	, LAG(block_timestamp) OVER (PARTITION BY ARRAY_TO_STRING(outputs.addresses,',') ORDER BY block_timestamp) AS output_prev_block_time
	, value
	, transaction_hash
	FROM `crypto-etl-ethereum-dev.bitcoin_blockchain.outputs` AS outputs
	),
	WITH
	input_metrics AS (
	SELECT
	ARRAY_TO_STRING(inputs.addresses,',') AS address,
	SUM(inputs.value) as value,
	COUNT(inputs.value) as cnt,
	AVG(inputs.value) as mean,
	STDDEV(inputs.value) as std_dev
	FROM `crypto-etl-ethereum-dev.bitcoin_blockchain.transactions` AS transactions JOIN UNNEST(transactions.inputs) AS inputs
	GROUP BY 1