lbry-sdk/lbry/wallet/server/db/trending/ar.py

import copy
import math
import time

# Half life in blocks
HALF_LIFE = 134

# Decay coefficient per block
DECAY = 0.5**(1.0/HALF_LIFE)

# How frequently to write trending values to the db
SAVE_INTERVAL = 10

# Renormalisation interval
RENORM_INTERVAL = 1000

# Assertion
assert RENORM_INTERVAL % SAVE_INTERVAL == 0

# Decay coefficient per renormalisation interval
DECAY_PER_RENORM = DECAY**(RENORM_INTERVAL)

# Log trending calculations?
TRENDING_LOG = True


# Stubs
def install(connection):
    check_trending_values(connection)

    if TRENDING_LOG:
        f = open("trending_ar.log", "w")
        f.close()


CREATE_TREND_TABLE = ""


def check_trending_values(connection):
    """
    If the trending values appear to be based on the standard algorithm,
    reset them. This will allow resyncing from a standard snapshot.
    """
    c = connection.cursor()
    needs_reset = False
    for row in c.execute("SELECT COUNT(*) num FROM claim WHERE trending_global <> 0;"):
        if row[0] != 0:
            needs_reset = True
            break

    if needs_reset:
        print("Resetting some columns. This might take a while...", flush=True, end="")
        c.execute(""" BEGIN;
                      UPDATE claim SET trending_group = 0;
                      UPDATE claim SET trending_mixed = 0;
                      UPDATE claim SET trending_global = 0;
                      UPDATE claim SET trending_local = 0;
                      COMMIT;""")
        print("done.")


def spike_height(trending_score, x, x_old, time_boost=1.0):
    """
    Compute the size of a trending spike.
    """

    # Change in softened amount
    change_in_softened_amount = x**0.25 - x_old**0.25

    # Softened change in amount
    delta = x - x_old
    softened_change_in_amount = abs(delta)**0.25

    # Softened change in amount counts more for minnows
    if delta > 0.0:
        multiplier = 1.0/math.sqrt(x + 1.0)
        softened_change_in_amount *= multiplier
    else:
        softened_change_in_amount *= -1.0

    return time_boost*(softened_change_in_amount + change_in_softened_amount)


def get_time_boost(height):
    """
    Return the time boost at a given height.
    """
    return 1.0/DECAY**(height % RENORM_INTERVAL)


def trending_log(s):
    """
    Log a string.
    """
    if TRENDING_LOG:
        fout = open("trending_ar.log", "a")
        fout.write(s)
        fout.flush()
        fout.close()

class TrendingData:
    """
    An object of this class holds trending data
    """
    def __init__(self):
        self.claims = {}

        # Have all claims been read from db yet?
        self.initialised = False

    def insert_claim_from_load(self, claim_id, trending_score, total_amount):
        assert not self.initialised
        self.claims[claim_id] = {"trending_score": trending_score,
                                 "total_amount": total_amount,
                                 "changed": False}


    def update_claim(self, claim_id, total_amount, time_boost=1.0):
        """
        Update trending data for a claim, given its new total amount.
        """
        assert self.initialised

        # Extract existing total amount and trending score
        # or use starting values if the claim is new
        if claim_id in self.claims:
            old_state = copy.deepcopy(self.claims[claim_id])
        else:
            old_state = {"trending_score": 0.0,
                         "total_amount": 0.0,
                         "changed": False}

        # Calculate LBC change
        change = total_amount - old_state["total_amount"]

        # Modify data if there was an LBC change
        if change != 0.0:
            spike = spike_height(old_state["trending_score"],
                                 total_amount,
                                 old_state["total_amount"],
                                 time_boost)
            trending_score = old_state["trending_score"] + spike
            self.claims[claim_id] = {"total_amount": total_amount,
                                     "trending_score": trending_score,
                                     "changed": True}


def test_trending():
    """
    Quick trending test for something receiving 10 LBC per block
    """
    data = TrendingData()
    data.insert_claim_from_load("abc", 10.0, 1.0)
    data.initialised = True

    for height in range(1, 5000):

        if height % RENORM_INTERVAL == 0:
            data.claims["abc"]["trending_score"] *= DECAY_PER_RENORM

        time_boost = get_time_boost(height)
        data.update_claim("abc", data.claims["abc"]["total_amount"] + 10.0,
                          time_boost=time_boost)


        print(str(height) + " " + str(time_boost) + " " \
                + str(data.claims["abc"]["trending_score"]))


# One global instance
# pylint: disable=C0103
trending_data = TrendingData()

def run(db, height, final_height, recalculate_claim_hashes):

    if height < final_height - 5*HALF_LIFE:
        trending_log("Skipping AR trending at block {h}.\n".format(h=height))

    start = time.time()

    trending_log("Calculating AR trending at block {h}.\n".format(h=height))
    trending_log("    Length of trending data = {l}.\n"\
                        .format(l=len(trending_data.claims)))

    # Renormalise trending scores and mark all as having changed
    if height % RENORM_INTERVAL == 0:
        trending_log("    Renormalising trending scores...")

        keys = trending_data.claims.keys()
        for key in keys:
            if trending_data.claims[key]["trending_score"] != 0.0:
                trending_data.claims[key]["trending_score"] *= DECAY_PER_RENORM
                trending_data.claims[key]["changed"] = True

                # Tiny becomes zero
                if abs(trending_data.claims[key]["trending_score"]) < 1E-9:
                    trending_data.claims[key]["trending_score"] = 0.0

        trending_log("done.\n")


    # Regular message.
    trending_log("    Reading total_amounts from db and updating"\
                        + " trending scores in RAM...")

    # Get the value of the time boost
    time_boost = get_time_boost(height)

    # Update claims from db
    if not trending_data.initialised:
        # On fresh launch
        for row in db.execute("""
                              SELECT claim_id, trending_mixed,
                                     (amount + support_amount)
                                         AS total_amount
                              FROM claim;
                              """):
            trending_data.insert_claim_from_load(row[0], row[1], 1E-8*row[2])
        trending_data.initialised = True
    else:
        for row in db.execute(f"""
                              SELECT claim_id,
                                     (amount + support_amount)
                                         AS total_amount
                              FROM claim
                              WHERE claim_hash IN
                            ({','.join('?' for _ in recalculate_claim_hashes)});
                              """, recalculate_claim_hashes):
            trending_data.update_claim(row[0], 1E-8*row[1], time_boost)

    trending_log("done.\n")


    # Write trending scores to DB
    if height % SAVE_INTERVAL == 0:

        trending_log("    Writing trending scores to db...")

        the_list = []
        keys = trending_data.claims.keys()
        for key in keys:
            if trending_data.claims[key]["changed"]:
                the_list.append((trending_data.claims[key]["trending_score"],
                                 key))
                trending_data.claims[key]["changed"] = False

        trending_log("{n} scores to write...".format(n=len(the_list)))

        db.executemany("UPDATE claim SET trending_mixed=? WHERE claim_id=?;",
                       the_list)

        trending_log("done.\n")

    trending_log("Trending operations took {time} seconds.\n\n"\
                            .format(time=time.time() - start))


if __name__ == "__main__":
    test_trending()
ar trending algorithm 2020-01-26 19:26:37 +01:00			`import copy`
			`import math`
			`import time`

			`# Half life in blocks`
			`HALF_LIFE = 134`

			`# Decay coefficient per block`
			`DECAY = 0.5**(1.0/HALF_LIFE)`

			`# How frequently to write trending values to the db`
			`SAVE_INTERVAL = 10`

			`# Renormalisation interval`
			`RENORM_INTERVAL = 1000`

			`# Assertion`
			`assert RENORM_INTERVAL % SAVE_INTERVAL == 0`

			`# Decay coefficient per renormalisation interval`
			`DECAY_PER_RENORM = DECAY**(RENORM_INTERVAL)`

			`# Log trending calculations?`
			`TRENDING_LOG = True`


			`# Stubs`
integrate ar trending algorithm into configurable trending system 2020-01-28 19:29:36 +01:00			`def install(connection):`
ar trending algorithm 2020-01-26 19:26:37 +01:00			`check_trending_values(connection)`

Only create file during install if logging is turned on 2020-02-04 19:47:38 +01:00			`if TRENDING_LOG:`
			`f = open("trending_ar.log", "w")`
			`f.close()`


ar trending algorithm 2020-01-26 19:26:37 +01:00			`CREATE_TREND_TABLE = ""`


			`def check_trending_values(connection):`
			`"""`
			`If the trending values appear to be based on the standard algorithm,`
			`reset them. This will allow resyncing from a standard snapshot.`
			`"""`
			`c = connection.cursor()`
			`needs_reset = False`
			`for row in c.execute("SELECT COUNT(*) num FROM claim WHERE trending_global <> 0;"):`
			`if row[0] != 0:`
			`needs_reset = True`
			`break`

			`if needs_reset:`
			`print("Resetting some columns. This might take a while...", flush=True, end="")`
			`c.execute(""" BEGIN;`
			`UPDATE claim SET trending_group = 0;`
			`UPDATE claim SET trending_mixed = 0;`
			`UPDATE claim SET trending_global = 0;`
			`UPDATE claim SET trending_local = 0;`
			`COMMIT;""")`
			`print("done.")`



			`def spike_height(trending_score, x, x_old, time_boost=1.0):`
			`"""`
			`Compute the size of a trending spike.`
			`"""`

			`# Change in softened amount`
			`change_in_softened_amount = x0.25 - x_old0.25`

			`# Softened change in amount`
			`delta = x - x_old`
			`softened_change_in_amount = abs(delta)**0.25`

			`# Softened change in amount counts more for minnows`
			`if delta > 0.0:`
			`multiplier = 1.0/math.sqrt(x + 1.0)`
			`softened_change_in_amount *= multiplier`
			`else:`
			`softened_change_in_amount *= -1.0`

			`return time_boost*(softened_change_in_amount + change_in_softened_amount)`


			`def get_time_boost(height):`
			`"""`
			`Return the time boost at a given height.`
			`"""`
			`return 1.0/DECAY**(height % RENORM_INTERVAL)`


			`def trending_log(s):`
			`"""`
			`Log a string.`
			`"""`
			`if TRENDING_LOG:`
			`fout = open("trending_ar.log", "a")`
			`fout.write(s)`
			`fout.flush()`
			`fout.close()`

			`class TrendingData:`
			`"""`
			`An object of this class holds trending data`
			`"""`
			`def __init__(self):`
			`self.claims = {}`

			`# Have all claims been read from db yet?`
			`self.initialised = False`

			`def insert_claim_from_load(self, claim_id, trending_score, total_amount):`
			`assert not self.initialised`
			`self.claims[claim_id] = {"trending_score": trending_score,`
			`"total_amount": total_amount,`
			`"changed": False}`


			`def update_claim(self, claim_id, total_amount, time_boost=1.0):`
			`"""`
			`Update trending data for a claim, given its new total amount.`
			`"""`
			`assert self.initialised`

			`# Extract existing total amount and trending score`
			`# or use starting values if the claim is new`
			`if claim_id in self.claims:`
			`old_state = copy.deepcopy(self.claims[claim_id])`
			`else:`
			`old_state = {"trending_score": 0.0,`
			`"total_amount": 0.0,`
			`"changed": False}`

			`# Calculate LBC change`
			`change = total_amount - old_state["total_amount"]`

			`# Modify data if there was an LBC change`
			`if change != 0.0:`
			`spike = spike_height(old_state["trending_score"],`
			`total_amount,`
			`old_state["total_amount"],`
			`time_boost)`
			`trending_score = old_state["trending_score"] + spike`
			`self.claims[claim_id] = {"total_amount": total_amount,`
			`"trending_score": trending_score,`
			`"changed": True}`



			`def test_trending():`
			`"""`
			`Quick trending test for something receiving 10 LBC per block`
			`"""`
			`data = TrendingData()`
			`data.insert_claim_from_load("abc", 10.0, 1.0)`
			`data.initialised = True`

			`for height in range(1, 5000):`

			`if height % RENORM_INTERVAL == 0:`
			`data.claims["abc"]["trending_score"] *= DECAY_PER_RENORM`

			`time_boost = get_time_boost(height)`
			`data.update_claim("abc", data.claims["abc"]["total_amount"] + 10.0,`
			`time_boost=time_boost)`


			`print(str(height) + " " + str(time_boost) + " " \`
			`+ str(data.claims["abc"]["trending_score"]))`



			`# One global instance`
			`# pylint: disable=C0103`
			`trending_data = TrendingData()`

integrate ar trending algorithm into configurable trending system 2020-01-28 19:29:36 +01:00			`def run(db, height, final_height, recalculate_claim_hashes):`
ar trending algorithm 2020-01-26 19:26:37 +01:00
			`if height < final_height - 5*HALF_LIFE:`
			`trending_log("Skipping AR trending at block {h}.\n".format(h=height))`

			`start = time.time()`

			`trending_log("Calculating AR trending at block {h}.\n".format(h=height))`
			`trending_log(" Length of trending data = {l}.\n"\`
			`.format(l=len(trending_data.claims)))`

			`# Renormalise trending scores and mark all as having changed`
			`if height % RENORM_INTERVAL == 0:`
			`trending_log(" Renormalising trending scores...")`

			`keys = trending_data.claims.keys()`
			`for key in keys:`
			`if trending_data.claims[key]["trending_score"] != 0.0:`
			`trending_data.claims[key]["trending_score"] *= DECAY_PER_RENORM`
			`trending_data.claims[key]["changed"] = True`

			`# Tiny becomes zero`
			`if abs(trending_data.claims[key]["trending_score"]) < 1E-9:`
			`trending_data.claims[key]["trending_score"] = 0.0`

			`trending_log("done.\n")`


			`# Regular message.`
			`trending_log(" Reading total_amounts from db and updating"\`
			`+ " trending scores in RAM...")`

			`# Get the value of the time boost`
			`time_boost = get_time_boost(height)`

			`# Update claims from db`
Length zero could also just mean there aren't any claims 2020-01-30 19:34:43 +01:00			`if not trending_data.initialised:`
ar trending algorithm 2020-01-26 19:26:37 +01:00			`# On fresh launch`
			`for row in db.execute("""`
			`SELECT claim_id, trending_mixed,`
			`(amount + support_amount)`
			`AS total_amount`
			`FROM claim;`
			`"""):`
			`trending_data.insert_claim_from_load(row[0], row[1], 1E-8*row[2])`
			`trending_data.initialised = True`
			`else:`
			`for row in db.execute(f"""`
			`SELECT claim_id,`
			`(amount + support_amount)`
			`AS total_amount`
			`FROM claim`
			`WHERE claim_hash IN`
			`({','.join('?' for _ in recalculate_claim_hashes)});`
			`""", recalculate_claim_hashes):`
			`trending_data.update_claim(row[0], 1E-8*row[1], time_boost)`

			`trending_log("done.\n")`


			`# Write trending scores to DB`
			`if height % SAVE_INTERVAL == 0:`

			`trending_log(" Writing trending scores to db...")`

			`the_list = []`
			`keys = trending_data.claims.keys()`
			`for key in keys:`
			`if trending_data.claims[key]["changed"]:`
			`the_list.append((trending_data.claims[key]["trending_score"],`
			`key))`
			`trending_data.claims[key]["changed"] = False`

			`trending_log("{n} scores to write...".format(n=len(the_list)))`

			`db.executemany("UPDATE claim SET trending_mixed=? WHERE claim_id=?;",`
			`the_list)`

			`trending_log("done.\n")`

			`trending_log("Trending operations took {time} seconds.\n\n"\`
			`.format(time=time.time() - start))`


			`if __name__ == "__main__":`
			`test_trending()`