EVM_DEXTradeByToken_Cube

DEX Trades by a token in EVM Blockchain

type EVM_DEXTradeByToken_Cube {
  Block: EVM_DEXTradeByToken_Fields_Block
  Call: EVM_DEXTradeByToken_Fields_Call
  ChainId(
    if: EVM_DEXTradeByToken_Filter
    maximum: EVM_DEXTradeByToken_CompareFields
    minimum: EVM_DEXTradeByToken_CompareFields
    selectWhere: OLAP_BigInteger
  ): String
  Fee: EVM_DEXTradeByToken_Fields_Fee
  Log: EVM_DEXTradeByToken_Fields_Log
  Receipt: EVM_DEXTradeByToken_Fields_Receipt
  Trade: EVM_DEXTradeByToken_Fields_Trade
  Transaction: EVM_DEXTradeByToken_Fields_Transaction
  TransactionStatus: EVM_DEXTradeByToken_Fields_TransactionStatus
  average(
    selectWhere: Metric_filter_Float
    of: EVM_DEXTradeByToken_NumFields!
    if: EVM_DEXTradeByToken_Filter
  ): Float
  contingency(
    selectWhere: Metric_filter_Float
    of: EVM_DEXTradeByToken_NumFields
    with: EVM_DEXTradeByToken_NumFields
    if: EVM_DEXTradeByToken_Filter
  ): Float
  correlation(
    with: EVM_DEXTradeByToken_NumFields
    if: EVM_DEXTradeByToken_Filter
    selectWhere: Metric_filter_Float
    of: EVM_DEXTradeByToken_NumFields
  ): Float
  count(
    distinct: [EVM_DEXTradeByToken_EnumFields]
    if: EVM_DEXTradeByToken_Filter
    selectWhere: Metric_filter_String
  ): String
  covariance(
    of: EVM_DEXTradeByToken_NumFields
    with: EVM_DEXTradeByToken_NumFields
    if: EVM_DEXTradeByToken_Filter
    selectWhere: Metric_filter_Float
  ): Float
  cramers(
    selectWhere: Metric_filter_Float
    of: EVM_DEXTradeByToken_NumFields
    with: EVM_DEXTradeByToken_NumFields
    if: EVM_DEXTradeByToken_Filter
  ): Float
  cramers_bias_corrected(
    selectWhere: Metric_filter_Float
    of: EVM_DEXTradeByToken_NumFields
    with: EVM_DEXTradeByToken_NumFields
    if: EVM_DEXTradeByToken_Filter
  ): Float
  dispersion(
    selectWhere: Metric_filter_Float
    of: EVM_DEXTradeByToken_NumFields!
    if: EVM_DEXTradeByToken_Filter
  ): Float
  entropy(
    selectWhere: Metric_filter_Float
    of: EVM_DEXTradeByToken_NumFields!
    if: EVM_DEXTradeByToken_Filter
  ): Float
  gini(
    selectWhere: Metric_filter_Float
    of: EVM_DEXTradeByToken_NumFields!
  ): Float
  kurtosis(
    if: EVM_DEXTradeByToken_Filter
    of: EVM_DEXTradeByToken_NumFields!
    selectWhere: Metric_filter_Float
  ): Float
  median(
    selectWhere: Metric_filter_Float
    of: EVM_DEXTradeByToken_NumFields!
    if: EVM_DEXTradeByToken_Filter
  ): Float
  nakamoto(
    selectWhere: Metric_filter_Float
    ratio: Float = 0.51
    of: EVM_DEXTradeByToken_NumFields!
  ): Float
  quantile(
    selectWhere: Metric_filter_Float
    of: EVM_DEXTradeByToken_NumFields!
    level: Float = 0.5
    if: EVM_DEXTradeByToken_Filter
    method: OLAP_Metric_Calculation_Method_Exact
  ): Float
  rank_correlation(
    selectWhere: Metric_filter_Float
    of: EVM_DEXTradeByToken_NumFields
    with: EVM_DEXTradeByToken_NumFields
    if: EVM_DEXTradeByToken_Filter
  ): Float
  skew(
    of: EVM_DEXTradeByToken_NumFields!
    if: EVM_DEXTradeByToken_Filter
    selectWhere: Metric_filter_Float
  ): Float
  standard_deviation(
    selectWhere: Metric_filter_Float
    of: EVM_DEXTradeByToken_NumFields!
    if: EVM_DEXTradeByToken_Filter
  ): Float
  sum(
    selectWhere: Metric_filter_String
    of: EVM_DEXTradeByToken_NumFields!
    if: EVM_DEXTradeByToken_Filter
  ): String
  theil_index(
    selectWhere: Metric_filter_Float
    of: EVM_DEXTradeByToken_NumFields!
  ): Float
  theils_corrected(
    selectWhere: Metric_filter_Float
    with: EVM_DEXTradeByToken_NumFields
    if: EVM_DEXTradeByToken_Filter
    of: EVM_DEXTradeByToken_NumFields
  ): Float
  uniq(
    method: OLAP_Metric_Calculation_Method_Exact
    of: [EVM_DEXTradeByToken_EnumFields]!
    if: EVM_DEXTradeByToken_Filter
    selectWhere: Metric_filter_String
  ): String
}

Fields

`EVM_DEXTradeByToken_Cube.Block` ● `EVM_DEXTradeByToken_Fields_Block` object

Block fields

`EVM_DEXTradeByToken_Cube.Call` ● `EVM_DEXTradeByToken_Fields_Call` object

Call fields

`EVM_DEXTradeByToken_Cube.ChainId` ● `String` scalar

ChainId value
EVM_DEXTradeByToken_Cube.ChainId.if ● EVM_DEXTradeByToken_Filter input
Apply a condition to a metric calculation

`EVM_DEXTradeByToken_Cube.ChainId.maximum` ● `EVM_DEXTradeByToken_CompareFields` enum

Return value when the argument is maximum

`EVM_DEXTradeByToken_Cube.ChainId.minimum` ● `EVM_DEXTradeByToken_CompareFields` enum

Return value when the argument is minimum

`EVM_DEXTradeByToken_Cube.ChainId.selectWhere` ● `OLAP_BigInteger` input

Defines the condition to filter the results by the value of this metric

`EVM_DEXTradeByToken_Cube.Fee` ● `EVM_DEXTradeByToken_Fields_Fee` object

Fee fields

`EVM_DEXTradeByToken_Cube.Log` ● `EVM_DEXTradeByToken_Fields_Log` object

Log fields

`EVM_DEXTradeByToken_Cube.Receipt` ● `EVM_DEXTradeByToken_Fields_Receipt` object

Receipt fields

`EVM_DEXTradeByToken_Cube.Trade` ● `EVM_DEXTradeByToken_Fields_Trade` object

Trade fields

`EVM_DEXTradeByToken_Cube.Transaction` ● `EVM_DEXTradeByToken_Fields_Transaction` object

Transaction fields

`EVM_DEXTradeByToken_Cube.TransactionStatus` ● `EVM_DEXTradeByToken_Fields_TransactionStatus` object

TransactionStatus fields

`EVM_DEXTradeByToken_Cube.average` ● `Float` scalar

Average of the values
EVM_DEXTradeByToken_Cube.average.selectWhere ● Metric_filter_Float input
Defines the condition to filter the results by the value of this metric

`EVM_DEXTradeByToken_Cube.average.of` ● `EVM_DEXTradeByToken_NumFields!` non-null enum

Argument for Average of the values

`EVM_DEXTradeByToken_Cube.average.if` ● `EVM_DEXTradeByToken_Filter` input

Apply a condition to a metric calculation

`EVM_DEXTradeByToken_Cube.contingency` ● `Float` scalar

Contingency coefficient between two arguments
EVM_DEXTradeByToken_Cube.contingency.selectWhere ● Metric_filter_Float input
Defines the condition to filter the results by the value of this metric

`EVM_DEXTradeByToken_Cube.contingency.of` ● `EVM_DEXTradeByToken_NumFields` enum

First argument for Contingency coefficient between two arguments

`EVM_DEXTradeByToken_Cube.contingency.with` ● `EVM_DEXTradeByToken_NumFields` enum

Second argument for Contingency coefficient between two arguments

`EVM_DEXTradeByToken_Cube.contingency.if` ● `EVM_DEXTradeByToken_Filter` input

Apply a condition to a metric calculation

`EVM_DEXTradeByToken_Cube.correlation` ● `Float` scalar

Pearson correlation coefficient between two arguments
EVM_DEXTradeByToken_Cube.correlation.with ● EVM_DEXTradeByToken_NumFields enum
Second argument for Pearson correlation coefficient between two arguments

`EVM_DEXTradeByToken_Cube.correlation.if` ● `EVM_DEXTradeByToken_Filter` input

Apply a condition to a metric calculation

`EVM_DEXTradeByToken_Cube.correlation.selectWhere` ● `Metric_filter_Float` input

Defines the condition to filter the results by the value of this metric

`EVM_DEXTradeByToken_Cube.correlation.of` ● `EVM_DEXTradeByToken_NumFields` enum

First argument for Pearson correlation coefficient between two arguments

`EVM_DEXTradeByToken_Cube.count` ● `String` scalar

Count records or uniques of arguments
EVM_DEXTradeByToken_Cube.count.distinct ● [EVM_DEXTradeByToken_EnumFields] list enum
Count distinct values of the field

`EVM_DEXTradeByToken_Cube.count.if` ● `EVM_DEXTradeByToken_Filter` input

Apply a condition to a metric calculation

`EVM_DEXTradeByToken_Cube.count.selectWhere` ● `Metric_filter_String` input

Defines the condition to filter the results by the value of this metric

`EVM_DEXTradeByToken_Cube.covariance` ● `Float` scalar

Covariance between two arguments
EVM_DEXTradeByToken_Cube.covariance.of ● EVM_DEXTradeByToken_NumFields enum
First argument for Covariance between two arguments

`EVM_DEXTradeByToken_Cube.covariance.with` ● `EVM_DEXTradeByToken_NumFields` enum

Second argument for Covariance between two arguments

`EVM_DEXTradeByToken_Cube.covariance.if` ● `EVM_DEXTradeByToken_Filter` input

Apply a condition to a metric calculation

`EVM_DEXTradeByToken_Cube.covariance.selectWhere` ● `Metric_filter_Float` input

Defines the condition to filter the results by the value of this metric

`EVM_DEXTradeByToken_Cube.cramers` ● `Float` scalar

Cramér's phi coefficient between two arguments
EVM_DEXTradeByToken_Cube.cramers.selectWhere ● Metric_filter_Float input
Defines the condition to filter the results by the value of this metric

`EVM_DEXTradeByToken_Cube.cramers.of` ● `EVM_DEXTradeByToken_NumFields` enum

First argument for Cramér's phi coefficient between two arguments

`EVM_DEXTradeByToken_Cube.cramers.with` ● `EVM_DEXTradeByToken_NumFields` enum

Second argument for Cramér's phi coefficient between two arguments

`EVM_DEXTradeByToken_Cube.cramers.if` ● `EVM_DEXTradeByToken_Filter` input

Apply a condition to a metric calculation

`EVM_DEXTradeByToken_Cube.cramers_bias_corrected` ● `Float` scalar

Cramér's phi coefficient with bias correction between two arguments
EVM_DEXTradeByToken_Cube.cramers_bias_corrected.selectWhere ● Metric_filter_Float input
Defines the condition to filter the results by the value of this metric

`EVM_DEXTradeByToken_Cube.cramers_bias_corrected.of` ● `EVM_DEXTradeByToken_NumFields` enum

First argument for Cramér's phi coefficient with bias correction between two arguments

`EVM_DEXTradeByToken_Cube.cramers_bias_corrected.with` ● `EVM_DEXTradeByToken_NumFields` enum

Second argument for Cramér's phi coefficient with bias correction between two arguments

`EVM_DEXTradeByToken_Cube.cramers_bias_corrected.if` ● `EVM_DEXTradeByToken_Filter` input

Apply a condition to a metric calculation

`EVM_DEXTradeByToken_Cube.dispersion` ● `Float` scalar

Dispersion for a set of values
EVM_DEXTradeByToken_Cube.dispersion.selectWhere ● Metric_filter_Float input
Defines the condition to filter the results by the value of this metric

`EVM_DEXTradeByToken_Cube.dispersion.of` ● `EVM_DEXTradeByToken_NumFields!` non-null enum

Argument for Dispersion for a set of values

`EVM_DEXTradeByToken_Cube.dispersion.if` ● `EVM_DEXTradeByToken_Filter` input

Apply a condition to a metric calculation

`EVM_DEXTradeByToken_Cube.entropy` ● `Float` scalar

Entropy for a set of values
EVM_DEXTradeByToken_Cube.entropy.selectWhere ● Metric_filter_Float input
Defines the condition to filter the results by the value of this metric

`EVM_DEXTradeByToken_Cube.entropy.of` ● `EVM_DEXTradeByToken_NumFields!` non-null enum

Argument for Entropy for a set of values

`EVM_DEXTradeByToken_Cube.entropy.if` ● `EVM_DEXTradeByToken_Filter` input

Apply a condition to a metric calculation

`EVM_DEXTradeByToken_Cube.gini` ● `Float` scalar

Gini factor of argument
EVM_DEXTradeByToken_Cube.gini.selectWhere ● Metric_filter_Float input
Defines the condition to filter the results by the value of this metric

`EVM_DEXTradeByToken_Cube.gini.of` ● `EVM_DEXTradeByToken_NumFields!` non-null enum

Argument for gini

`EVM_DEXTradeByToken_Cube.kurtosis` ● `Float` scalar

Kurtosis for a set of values
EVM_DEXTradeByToken_Cube.kurtosis.if ● EVM_DEXTradeByToken_Filter input
Apply a condition to a metric calculation

`EVM_DEXTradeByToken_Cube.kurtosis.of` ● `EVM_DEXTradeByToken_NumFields!` non-null enum

Argument for Kurtosis for a set of values

`EVM_DEXTradeByToken_Cube.kurtosis.selectWhere` ● `Metric_filter_Float` input

Defines the condition to filter the results by the value of this metric

`EVM_DEXTradeByToken_Cube.median` ● `Float` scalar

Median for a set of values
EVM_DEXTradeByToken_Cube.median.selectWhere ● Metric_filter_Float input
Defines the condition to filter the results by the value of this metric

`EVM_DEXTradeByToken_Cube.median.of` ● `EVM_DEXTradeByToken_NumFields!` non-null enum

Argument for Median for a set of values

`EVM_DEXTradeByToken_Cube.median.if` ● `EVM_DEXTradeByToken_Filter` input

Apply a condition to a metric calculation

`EVM_DEXTradeByToken_Cube.nakamoto` ● `Float` scalar

Nakamoto index of argument. Count of values more than 0.51 of the range. Ratio (0.51) can be specified as optional parameter
EVM_DEXTradeByToken_Cube.nakamoto.selectWhere ● Metric_filter_Float input
Defines the condition to filter the results by the value of this metric

`EVM_DEXTradeByToken_Cube.nakamoto.ratio` ● `Float` scalar

Ratio for nakamoto index ( default is 0.51, can be from 0 to 1 )

`EVM_DEXTradeByToken_Cube.nakamoto.of` ● `EVM_DEXTradeByToken_NumFields!` non-null enum

Argument for nakamoto index

`EVM_DEXTradeByToken_Cube.quantile` ● `Float` scalar

Approximate quantile of a numeric data sequence
EVM_DEXTradeByToken_Cube.quantile.selectWhere ● Metric_filter_Float input
Defines the condition to filter the results by the value of this metric

`EVM_DEXTradeByToken_Cube.quantile.of` ● `EVM_DEXTradeByToken_NumFields!` non-null enum

Argument for quantile

`EVM_DEXTradeByToken_Cube.quantile.level` ● `Float` scalar

Level of quantile. Optional parameter. Constant floating-point number from 0 to 1. We recommend using a level value in the range of [0.01, 0.99]. Default value: 0.5. At level=0.5 the function calculates median.

`EVM_DEXTradeByToken_Cube.quantile.if` ● `EVM_DEXTradeByToken_Filter` input

Apply a condition to a metric calculation

`EVM_DEXTradeByToken_Cube.quantile.method` ● `OLAP_Metric_Calculation_Method_Exact` enum

Method used to calculate metric values

`EVM_DEXTradeByToken_Cube.rank_correlation` ● `Float` scalar

Rank correlation coefficient between two arguments
EVM_DEXTradeByToken_Cube.rank_correlation.selectWhere ● Metric_filter_Float input
Defines the condition to filter the results by the value of this metric

`EVM_DEXTradeByToken_Cube.rank_correlation.of` ● `EVM_DEXTradeByToken_NumFields` enum

First argument for Rank correlation coefficient between two arguments

`EVM_DEXTradeByToken_Cube.rank_correlation.with` ● `EVM_DEXTradeByToken_NumFields` enum

Second argument for Rank correlation coefficient between two arguments

`EVM_DEXTradeByToken_Cube.rank_correlation.if` ● `EVM_DEXTradeByToken_Filter` input

Apply a condition to a metric calculation

`EVM_DEXTradeByToken_Cube.skew` ● `Float` scalar

Skew for a set of values
EVM_DEXTradeByToken_Cube.skew.of ● EVM_DEXTradeByToken_NumFields! non-null enum
Argument for Skew for a set of values

`EVM_DEXTradeByToken_Cube.skew.if` ● `EVM_DEXTradeByToken_Filter` input

Apply a condition to a metric calculation

`EVM_DEXTradeByToken_Cube.skew.selectWhere` ● `Metric_filter_Float` input

Defines the condition to filter the results by the value of this metric

`EVM_DEXTradeByToken_Cube.standard_deviation` ● `Float` scalar

Standard deviation of the values
EVM_DEXTradeByToken_Cube.standard_deviation.selectWhere ● Metric_filter_Float input
Defines the condition to filter the results by the value of this metric

`EVM_DEXTradeByToken_Cube.standard_deviation.of` ● `EVM_DEXTradeByToken_NumFields!` non-null enum

Argument for Standard deviation of the values

`EVM_DEXTradeByToken_Cube.standard_deviation.if` ● `EVM_DEXTradeByToken_Filter` input

Apply a condition to a metric calculation

`EVM_DEXTradeByToken_Cube.sum` ● `String` scalar

Sum values of argument
EVM_DEXTradeByToken_Cube.sum.selectWhere ● Metric_filter_String input
Defines the condition to filter the results by the value of this metric

`EVM_DEXTradeByToken_Cube.sum.of` ● `EVM_DEXTradeByToken_NumFields!` non-null enum

Argument for sum

`EVM_DEXTradeByToken_Cube.sum.if` ● `EVM_DEXTradeByToken_Filter` input

Apply a condition to a metric calculation

`EVM_DEXTradeByToken_Cube.theil_index` ● `Float` scalar

Theil index of argument
EVM_DEXTradeByToken_Cube.theil_index.selectWhere ● Metric_filter_Float input
Defines the condition to filter the results by the value of this metric

`EVM_DEXTradeByToken_Cube.theil_index.of` ● `EVM_DEXTradeByToken_NumFields!` non-null enum

Argument for Theil index

`EVM_DEXTradeByToken_Cube.theils_corrected` ● `Float` scalar

Theil's U uncertainty coefficient, coefficient with bias correction between two arguments
EVM_DEXTradeByToken_Cube.theils_corrected.selectWhere ● Metric_filter_Float input
Defines the condition to filter the results by the value of this metric

`EVM_DEXTradeByToken_Cube.theils_corrected.with` ● `EVM_DEXTradeByToken_NumFields` enum

Second argument for Theil's U uncertainty coefficient, coefficient with bias correction between two arguments

`EVM_DEXTradeByToken_Cube.theils_corrected.if` ● `EVM_DEXTradeByToken_Filter` input

Apply a condition to a metric calculation

`EVM_DEXTradeByToken_Cube.theils_corrected.of` ● `EVM_DEXTradeByToken_NumFields` enum

First argument for Theil's U uncertainty coefficient, coefficient with bias correction between two arguments

`EVM_DEXTradeByToken_Cube.uniq` ● `String` scalar

Count unique records
EVM_DEXTradeByToken_Cube.uniq.method ● OLAP_Metric_Calculation_Method_Exact enum
Method used to calculate metric values

`EVM_DEXTradeByToken_Cube.uniq.of` ● `[EVM_DEXTradeByToken_EnumFields]!` non-null enum

Uniq values of the field

`EVM_DEXTradeByToken_Cube.uniq.if` ● `EVM_DEXTradeByToken_Filter` input

Apply a condition to a metric calculation

`EVM_DEXTradeByToken_Cube.uniq.selectWhere` ● `Metric_filter_String` input

Defines the condition to filter the results by the value of this metric

Member Of

EVM_Subscription object ● EVM object

Fields​

EVM_DEXTradeByToken_Cube.Block ● EVM_DEXTradeByToken_Fields_Block object​

EVM_DEXTradeByToken_Cube.Call ● EVM_DEXTradeByToken_Fields_Call object​

EVM_DEXTradeByToken_Cube.ChainId ● String scalar​

EVM_DEXTradeByToken_Cube.ChainId.if ● EVM_DEXTradeByToken_Filter input​

EVM_DEXTradeByToken_Cube.ChainId.maximum ● EVM_DEXTradeByToken_CompareFields enum​

EVM_DEXTradeByToken_Cube.ChainId.minimum ● EVM_DEXTradeByToken_CompareFields enum​

EVM_DEXTradeByToken_Cube.ChainId.selectWhere ● OLAP_BigInteger input​

EVM_DEXTradeByToken_Cube.Fee ● EVM_DEXTradeByToken_Fields_Fee object​

EVM_DEXTradeByToken_Cube.Log ● EVM_DEXTradeByToken_Fields_Log object​

EVM_DEXTradeByToken_Cube.Receipt ● EVM_DEXTradeByToken_Fields_Receipt object​

EVM_DEXTradeByToken_Cube.Trade ● EVM_DEXTradeByToken_Fields_Trade object​

EVM_DEXTradeByToken_Cube.Transaction ● EVM_DEXTradeByToken_Fields_Transaction object​

EVM_DEXTradeByToken_Cube.TransactionStatus ● EVM_DEXTradeByToken_Fields_TransactionStatus object​

EVM_DEXTradeByToken_Cube.average ● Float scalar​

EVM_DEXTradeByToken_Cube.average.selectWhere ● Metric_filter_Float input​

EVM_DEXTradeByToken_Cube.average.of ● EVM_DEXTradeByToken_NumFields! non-null enum​

EVM_DEXTradeByToken_Cube.average.if ● EVM_DEXTradeByToken_Filter input​

EVM_DEXTradeByToken_Cube.contingency ● Float scalar​

EVM_DEXTradeByToken_Cube.contingency.selectWhere ● Metric_filter_Float input​

EVM_DEXTradeByToken_Cube.contingency.of ● EVM_DEXTradeByToken_NumFields enum​

EVM_DEXTradeByToken_Cube.contingency.with ● EVM_DEXTradeByToken_NumFields enum​

EVM_DEXTradeByToken_Cube.contingency.if ● EVM_DEXTradeByToken_Filter input​

EVM_DEXTradeByToken_Cube.correlation ● Float scalar​

EVM_DEXTradeByToken_Cube.correlation.with ● EVM_DEXTradeByToken_NumFields enum​

EVM_DEXTradeByToken_Cube.correlation.if ● EVM_DEXTradeByToken_Filter input​

EVM_DEXTradeByToken_Cube.correlation.selectWhere ● Metric_filter_Float input​

EVM_DEXTradeByToken_Cube.correlation.of ● EVM_DEXTradeByToken_NumFields enum​

EVM_DEXTradeByToken_Cube.count ● String scalar​

EVM_DEXTradeByToken_Cube.count.distinct ● [EVM_DEXTradeByToken_EnumFields] list enum​

EVM_DEXTradeByToken_Cube.count.if ● EVM_DEXTradeByToken_Filter input​

EVM_DEXTradeByToken_Cube.count.selectWhere ● Metric_filter_String input​

EVM_DEXTradeByToken_Cube.covariance ● Float scalar​

EVM_DEXTradeByToken_Cube.covariance.of ● EVM_DEXTradeByToken_NumFields enum​

EVM_DEXTradeByToken_Cube.covariance.with ● EVM_DEXTradeByToken_NumFields enum​

EVM_DEXTradeByToken_Cube.covariance.if ● EVM_DEXTradeByToken_Filter input​

EVM_DEXTradeByToken_Cube.covariance.selectWhere ● Metric_filter_Float input​

EVM_DEXTradeByToken_Cube.cramers ● Float scalar​

EVM_DEXTradeByToken_Cube.cramers.selectWhere ● Metric_filter_Float input​

EVM_DEXTradeByToken_Cube.cramers.of ● EVM_DEXTradeByToken_NumFields enum​

EVM_DEXTradeByToken_Cube.cramers.with ● EVM_DEXTradeByToken_NumFields enum​

EVM_DEXTradeByToken_Cube.cramers.if ● EVM_DEXTradeByToken_Filter input​

EVM_DEXTradeByToken_Cube.cramers_bias_corrected ● Float scalar​

EVM_DEXTradeByToken_Cube.cramers_bias_corrected.selectWhere ● Metric_filter_Float input​

EVM_DEXTradeByToken_Cube.cramers_bias_corrected.of ● EVM_DEXTradeByToken_NumFields enum​

EVM_DEXTradeByToken_Cube.cramers_bias_corrected.with ● EVM_DEXTradeByToken_NumFields enum​

EVM_DEXTradeByToken_Cube.cramers_bias_corrected.if ● EVM_DEXTradeByToken_Filter input​

EVM_DEXTradeByToken_Cube.dispersion ● Float scalar​

EVM_DEXTradeByToken_Cube.dispersion.selectWhere ● Metric_filter_Float input​

EVM_DEXTradeByToken_Cube.dispersion.of ● EVM_DEXTradeByToken_NumFields! non-null enum​

EVM_DEXTradeByToken_Cube.dispersion.if ● EVM_DEXTradeByToken_Filter input​

EVM_DEXTradeByToken_Cube.entropy ● Float scalar​

EVM_DEXTradeByToken_Cube.entropy.selectWhere ● Metric_filter_Float input​

EVM_DEXTradeByToken_Cube.entropy.of ● EVM_DEXTradeByToken_NumFields! non-null enum​

EVM_DEXTradeByToken_Cube.entropy.if ● EVM_DEXTradeByToken_Filter input​

EVM_DEXTradeByToken_Cube.gini ● Float scalar​

EVM_DEXTradeByToken_Cube.gini.selectWhere ● Metric_filter_Float input​

EVM_DEXTradeByToken_Cube.gini.of ● EVM_DEXTradeByToken_NumFields! non-null enum​

EVM_DEXTradeByToken_Cube.kurtosis ● Float scalar​

EVM_DEXTradeByToken_Cube.kurtosis.if ● EVM_DEXTradeByToken_Filter input​

EVM_DEXTradeByToken_Cube.kurtosis.of ● EVM_DEXTradeByToken_NumFields! non-null enum​

EVM_DEXTradeByToken_Cube.kurtosis.selectWhere ● Metric_filter_Float input​

EVM_DEXTradeByToken_Cube.median ● Float scalar​

EVM_DEXTradeByToken_Cube.median.selectWhere ● Metric_filter_Float input​

EVM_DEXTradeByToken_Cube.median.of ● EVM_DEXTradeByToken_NumFields! non-null enum​

EVM_DEXTradeByToken_Cube.median.if ● EVM_DEXTradeByToken_Filter input​

EVM_DEXTradeByToken_Cube.nakamoto ● Float scalar​

EVM_DEXTradeByToken_Cube.nakamoto.selectWhere ● Metric_filter_Float input​

EVM_DEXTradeByToken_Cube.nakamoto.ratio ● Float scalar​

EVM_DEXTradeByToken_Cube.nakamoto.of ● EVM_DEXTradeByToken_NumFields! non-null enum​

EVM_DEXTradeByToken_Cube.quantile ● Float scalar​

EVM_DEXTradeByToken_Cube.quantile.selectWhere ● Metric_filter_Float input​

EVM_DEXTradeByToken_Cube.quantile.of ● EVM_DEXTradeByToken_NumFields! non-null enum​

EVM_DEXTradeByToken_Cube.quantile.level ● Float scalar​

EVM_DEXTradeByToken_Cube.quantile.if ● EVM_DEXTradeByToken_Filter input​

EVM_DEXTradeByToken_Cube.quantile.method ● OLAP_Metric_Calculation_Method_Exact enum​

EVM_DEXTradeByToken_Cube.rank_correlation ● Float scalar​

EVM_DEXTradeByToken_Cube.rank_correlation.selectWhere ● Metric_filter_Float input​

EVM_DEXTradeByToken_Cube.rank_correlation.of ● EVM_DEXTradeByToken_NumFields enum​

EVM_DEXTradeByToken_Cube.rank_correlation.with ● EVM_DEXTradeByToken_NumFields enum​

Fields

`EVM_DEXTradeByToken_Cube.Block` ● `EVM_DEXTradeByToken_Fields_Block` object

`EVM_DEXTradeByToken_Cube.Call` ● `EVM_DEXTradeByToken_Fields_Call` object

`EVM_DEXTradeByToken_Cube.ChainId` ● `String` scalar

`EVM_DEXTradeByToken_Cube.ChainId.if` ● `EVM_DEXTradeByToken_Filter` input

`EVM_DEXTradeByToken_Cube.ChainId.maximum` ● `EVM_DEXTradeByToken_CompareFields` enum

`EVM_DEXTradeByToken_Cube.ChainId.minimum` ● `EVM_DEXTradeByToken_CompareFields` enum

`EVM_DEXTradeByToken_Cube.ChainId.selectWhere` ● `OLAP_BigInteger` input

`EVM_DEXTradeByToken_Cube.Fee` ● `EVM_DEXTradeByToken_Fields_Fee` object

`EVM_DEXTradeByToken_Cube.Log` ● `EVM_DEXTradeByToken_Fields_Log` object

`EVM_DEXTradeByToken_Cube.Receipt` ● `EVM_DEXTradeByToken_Fields_Receipt` object

`EVM_DEXTradeByToken_Cube.Trade` ● `EVM_DEXTradeByToken_Fields_Trade` object

`EVM_DEXTradeByToken_Cube.Transaction` ● `EVM_DEXTradeByToken_Fields_Transaction` object

`EVM_DEXTradeByToken_Cube.TransactionStatus` ● `EVM_DEXTradeByToken_Fields_TransactionStatus` object

`EVM_DEXTradeByToken_Cube.average` ● `Float` scalar

`EVM_DEXTradeByToken_Cube.average.selectWhere` ● `Metric_filter_Float` input

`EVM_DEXTradeByToken_Cube.average.of` ● `EVM_DEXTradeByToken_NumFields!` non-null enum

`EVM_DEXTradeByToken_Cube.average.if` ● `EVM_DEXTradeByToken_Filter` input

`EVM_DEXTradeByToken_Cube.contingency` ● `Float` scalar

`EVM_DEXTradeByToken_Cube.contingency.selectWhere` ● `Metric_filter_Float` input

`EVM_DEXTradeByToken_Cube.contingency.of` ● `EVM_DEXTradeByToken_NumFields` enum

`EVM_DEXTradeByToken_Cube.contingency.with` ● `EVM_DEXTradeByToken_NumFields` enum

`EVM_DEXTradeByToken_Cube.contingency.if` ● `EVM_DEXTradeByToken_Filter` input

`EVM_DEXTradeByToken_Cube.correlation` ● `Float` scalar

`EVM_DEXTradeByToken_Cube.correlation.with` ● `EVM_DEXTradeByToken_NumFields` enum

`EVM_DEXTradeByToken_Cube.correlation.if` ● `EVM_DEXTradeByToken_Filter` input

`EVM_DEXTradeByToken_Cube.correlation.selectWhere` ● `Metric_filter_Float` input

`EVM_DEXTradeByToken_Cube.correlation.of` ● `EVM_DEXTradeByToken_NumFields` enum

`EVM_DEXTradeByToken_Cube.count` ● `String` scalar

`EVM_DEXTradeByToken_Cube.count.distinct` ● `[EVM_DEXTradeByToken_EnumFields]` list enum

`EVM_DEXTradeByToken_Cube.count.if` ● `EVM_DEXTradeByToken_Filter` input

`EVM_DEXTradeByToken_Cube.count.selectWhere` ● `Metric_filter_String` input

`EVM_DEXTradeByToken_Cube.covariance` ● `Float` scalar

`EVM_DEXTradeByToken_Cube.covariance.of` ● `EVM_DEXTradeByToken_NumFields` enum

`EVM_DEXTradeByToken_Cube.covariance.with` ● `EVM_DEXTradeByToken_NumFields` enum

`EVM_DEXTradeByToken_Cube.covariance.if` ● `EVM_DEXTradeByToken_Filter` input

`EVM_DEXTradeByToken_Cube.covariance.selectWhere` ● `Metric_filter_Float` input

`EVM_DEXTradeByToken_Cube.cramers` ● `Float` scalar

`EVM_DEXTradeByToken_Cube.cramers.selectWhere` ● `Metric_filter_Float` input

`EVM_DEXTradeByToken_Cube.cramers.of` ● `EVM_DEXTradeByToken_NumFields` enum

`EVM_DEXTradeByToken_Cube.cramers.with` ● `EVM_DEXTradeByToken_NumFields` enum

`EVM_DEXTradeByToken_Cube.cramers.if` ● `EVM_DEXTradeByToken_Filter` input

`EVM_DEXTradeByToken_Cube.cramers_bias_corrected` ● `Float` scalar

`EVM_DEXTradeByToken_Cube.cramers_bias_corrected.selectWhere` ● `Metric_filter_Float` input

`EVM_DEXTradeByToken_Cube.cramers_bias_corrected.of` ● `EVM_DEXTradeByToken_NumFields` enum

`EVM_DEXTradeByToken_Cube.cramers_bias_corrected.with` ● `EVM_DEXTradeByToken_NumFields` enum

`EVM_DEXTradeByToken_Cube.cramers_bias_corrected.if` ● `EVM_DEXTradeByToken_Filter` input

`EVM_DEXTradeByToken_Cube.dispersion` ● `Float` scalar

`EVM_DEXTradeByToken_Cube.dispersion.selectWhere` ● `Metric_filter_Float` input

`EVM_DEXTradeByToken_Cube.dispersion.of` ● `EVM_DEXTradeByToken_NumFields!` non-null enum

`EVM_DEXTradeByToken_Cube.dispersion.if` ● `EVM_DEXTradeByToken_Filter` input

`EVM_DEXTradeByToken_Cube.entropy` ● `Float` scalar

`EVM_DEXTradeByToken_Cube.entropy.selectWhere` ● `Metric_filter_Float` input

`EVM_DEXTradeByToken_Cube.entropy.of` ● `EVM_DEXTradeByToken_NumFields!` non-null enum

`EVM_DEXTradeByToken_Cube.entropy.if` ● `EVM_DEXTradeByToken_Filter` input

`EVM_DEXTradeByToken_Cube.gini` ● `Float` scalar

`EVM_DEXTradeByToken_Cube.gini.selectWhere` ● `Metric_filter_Float` input

`EVM_DEXTradeByToken_Cube.gini.of` ● `EVM_DEXTradeByToken_NumFields!` non-null enum

`EVM_DEXTradeByToken_Cube.kurtosis` ● `Float` scalar

`EVM_DEXTradeByToken_Cube.kurtosis.if` ● `EVM_DEXTradeByToken_Filter` input

`EVM_DEXTradeByToken_Cube.kurtosis.of` ● `EVM_DEXTradeByToken_NumFields!` non-null enum

`EVM_DEXTradeByToken_Cube.kurtosis.selectWhere` ● `Metric_filter_Float` input

`EVM_DEXTradeByToken_Cube.median` ● `Float` scalar

`EVM_DEXTradeByToken_Cube.median.selectWhere` ● `Metric_filter_Float` input

`EVM_DEXTradeByToken_Cube.median.of` ● `EVM_DEXTradeByToken_NumFields!` non-null enum

`EVM_DEXTradeByToken_Cube.median.if` ● `EVM_DEXTradeByToken_Filter` input

`EVM_DEXTradeByToken_Cube.nakamoto` ● `Float` scalar

`EVM_DEXTradeByToken_Cube.nakamoto.selectWhere` ● `Metric_filter_Float` input

`EVM_DEXTradeByToken_Cube.nakamoto.ratio` ● `Float` scalar

`EVM_DEXTradeByToken_Cube.nakamoto.of` ● `EVM_DEXTradeByToken_NumFields!` non-null enum

`EVM_DEXTradeByToken_Cube.quantile` ● `Float` scalar

`EVM_DEXTradeByToken_Cube.quantile.selectWhere` ● `Metric_filter_Float` input

`EVM_DEXTradeByToken_Cube.quantile.of` ● `EVM_DEXTradeByToken_NumFields!` non-null enum

`EVM_DEXTradeByToken_Cube.quantile.level` ● `Float` scalar

`EVM_DEXTradeByToken_Cube.quantile.if` ● `EVM_DEXTradeByToken_Filter` input

`EVM_DEXTradeByToken_Cube.quantile.method` ● `OLAP_Metric_Calculation_Method_Exact` enum

`EVM_DEXTradeByToken_Cube.rank_correlation` ● `Float` scalar

`EVM_DEXTradeByToken_Cube.rank_correlation.selectWhere` ● `Metric_filter_Float` input

`EVM_DEXTradeByToken_Cube.rank_correlation.of` ● `EVM_DEXTradeByToken_NumFields` enum

`EVM_DEXTradeByToken_Cube.rank_correlation.with` ● `EVM_DEXTradeByToken_NumFields` enum