Packages

c

chisel3.Data

ConnectableDefault

implicit class ConnectableDefault[T <: Data] extends ConnectableOperators[T]

Provides :<=, :>=, :<>=, and :#= between consumer and producer of the same T <: Data

Linear Supertypes
ConnectableOperators[T], ConnectableOpExtension[T], ConnectableDocs, AnyRef, Any
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  1. ConnectableDefault
  2. ConnectableOperators
  3. ConnectableOpExtension
  4. ConnectableDocs
  5. AnyRef
  6. Any
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Visibility
  1. Public
  2. Protected

Instance Constructors

  1. new ConnectableDefault(consumer: T)

Value Members

  1. final def !=(arg0: Any): Boolean
    Definition Classes
    AnyRef → Any
  2. final def ##: Int
    Definition Classes
    AnyRef → Any
  3. final def :#=(producer: DontCare.type)(implicit sourceInfo: SourceInfo): Unit

    The "mono-direction connection operator", aka the "coercion operator".

    The "mono-direction connection operator", aka the "coercion operator".

    For consumer :#= producer, all leaf members of consumer (regardless of relative flip) are driven by the corresponding leaf members of producer (regardless of relative flip)

    Identical to calling :<= and :>=, but swapping consumer/producer for :>= (order is irrelevant), e.g.: consumer :<= producer producer :>= consumer

    Symbol reference:

    • ':' is the consumer side
    • '=' is the producer side
    • '#' means to ignore flips, always drive from producer to consumer

    The following restrictions apply:

    • The Chisel type of consumer and producer must be the "same shape" recursively:
      • All ground types are the same (UInt and UInt are same, SInt and UInt are not), but widths can be different (implicit trunction/padding occurs)
      • All vector types are the same length
      • All bundle types have the same member names, but the flips of members can be different between producer and consumer
    • The leaf members that are ultimately assigned to, must be assignable. This means they cannot be module inputs or instance outputs.

    Additional notes: - Connecting two util.DecoupledIO's would connect bits, valid, AND ready from producer to consumer (despite ready being flipped) - Functionally equivalent to chisel3.:=, but different than Chisel.:=

    producer

    the right-hand-side of the connection, all members will be driving, none will be driven-to

    Definition Classes
    ConnectableOpExtension
  4. final def :#=[S <: Data](producer: connectable.Connectable[S])(implicit evidence: =:=[T, S], sourceInfo: SourceInfo): Unit

    The "mono-direction connection operator", aka the "coercion operator".

    The "mono-direction connection operator", aka the "coercion operator".

    For consumer :#= producer, all leaf members of consumer (regardless of relative flip) are driven by the corresponding leaf members of producer (regardless of relative flip)

    Identical to calling :<= and :>=, but swapping consumer/producer for :>= (order is irrelevant), e.g.: consumer :<= producer producer :>= consumer

    Symbol reference:

    • ':' is the consumer side
    • '=' is the producer side
    • '#' means to ignore flips, always drive from producer to consumer

    The following restrictions apply:

    • The Chisel type of consumer and producer must be the "same shape" recursively:
      • All ground types are the same (UInt and UInt are same, SInt and UInt are not), but widths can be different (implicit trunction/padding occurs)
      • All vector types are the same length
      • All bundle types have the same member names, but the flips of members can be different between producer and consumer
    • The leaf members that are ultimately assigned to, must be assignable. This means they cannot be module inputs or instance outputs.

    Additional notes: - Connecting two util.DecoupledIO's would connect bits, valid, AND ready from producer to consumer (despite ready being flipped) - Functionally equivalent to chisel3.:=, but different than Chisel.:=

    producer

    the right-hand-side of the connection, all members will be driving, none will be driven-to

    Definition Classes
    ConnectableOpExtension
  5. final def :#=[S <: Data](lProducer: => S)(implicit evidence: =:=[T, S], sourceInfo: SourceInfo): Unit

    The "mono-direction connection operator", aka the "coercion operator".

    The "mono-direction connection operator", aka the "coercion operator".

    For consumer :#= producer, all leaf members of consumer (regardless of relative flip) are driven by the corresponding leaf members of producer (regardless of relative flip)

    Identical to calling :<= and :>=, but swapping consumer/producer for :>= (order is irrelevant), e.g.: consumer :<= producer producer :>= consumer

    Symbol reference:

    • ':' is the consumer side
    • '=' is the producer side
    • '#' means to ignore flips, always drive from producer to consumer

    The following restrictions apply:

    • The Chisel type of consumer and producer must be the "same shape" recursively:
      • All ground types are the same (UInt and UInt are same, SInt and UInt are not), but widths can be different (implicit trunction/padding occurs)
      • All vector types are the same length
      • All bundle types have the same member names, but the flips of members can be different between producer and consumer
    • The leaf members that are ultimately assigned to, must be assignable. This means they cannot be module inputs or instance outputs.

    Additional notes: - Connecting two util.DecoupledIO's would connect bits, valid, AND ready from producer to consumer (despite ready being flipped) - Functionally equivalent to chisel3.:=, but different than Chisel.:=

    Definition Classes
    ConnectableOpExtension
  6. final def :<=(producer: DontCare.type)(implicit sourceInfo: SourceInfo): Unit

    The "aligned connection operator" between a producer and consumer.

    The "aligned connection operator" between a producer and consumer.

    For consumer :<= producer, each of consumer's leaf members which are aligned with respect to consumer are driven from the corresponding producer leaf member. Only consumer's leaf/branch alignments influence the connection.

    Symbol reference:

    • ':' is the consumer side
    • '=' is the producer side
    • '<' means to connect from producer to consumer

    The following restrictions apply:

    • The Chisel type of consumer and producer must be the "same shape" recursively:
      • All ground types are the same (UInt and UInt are same, SInt and UInt are not), but widths can be different (implicit trunction/padding occurs)
      • All vector types are the same length
      • All bundle types have the same member names, but the flips of members can be different between producer and consumer
    • The leaf members that are ultimately assigned to, must be assignable. This means they cannot be module inputs or instance outputs.

    Additional notes:

    • Connecting two util.DecoupledIO's would connect bits and valid from producer to consumer, but leave ready unconnected
    producer

    the right-hand-side of the connection; will always drive leaf connections, and never get driven by leaf connections ("aligned connection")

    Definition Classes
    ConnectableOpExtension
  7. final def :<=[S <: Data](producer: connectable.Connectable[S])(implicit evidence: =:=[T, S], sourceInfo: SourceInfo): Unit

    The "aligned connection operator" between a producer and consumer.

    The "aligned connection operator" between a producer and consumer.

    For consumer :<= producer, each of consumer's leaf members which are aligned with respect to consumer are driven from the corresponding producer leaf member. Only consumer's leaf/branch alignments influence the connection.

    Symbol reference:

    • ':' is the consumer side
    • '=' is the producer side
    • '<' means to connect from producer to consumer

    The following restrictions apply:

    • The Chisel type of consumer and producer must be the "same shape" recursively:
      • All ground types are the same (UInt and UInt are same, SInt and UInt are not), but widths can be different (implicit trunction/padding occurs)
      • All vector types are the same length
      • All bundle types have the same member names, but the flips of members can be different between producer and consumer
    • The leaf members that are ultimately assigned to, must be assignable. This means they cannot be module inputs or instance outputs.

    Additional notes:

    • Connecting two util.DecoupledIO's would connect bits and valid from producer to consumer, but leave ready unconnected
    producer

    the right-hand-side of the connection; will always drive leaf connections, and never get driven by leaf connections ("aligned connection")

    Definition Classes
    ConnectableOpExtension
  8. final def :<=[S <: Data](lProducer: => S)(implicit evidence: =:=[T, S], sourceInfo: SourceInfo): Unit

    The "aligned connection operator" between a producer and consumer.

    The "aligned connection operator" between a producer and consumer.

    For consumer :<= producer, each of consumer's leaf members which are aligned with respect to consumer are driven from the corresponding producer leaf member. Only consumer's leaf/branch alignments influence the connection.

    Symbol reference:

    • ':' is the consumer side
    • '=' is the producer side
    • '<' means to connect from producer to consumer

    The following restrictions apply:

    • The Chisel type of consumer and producer must be the "same shape" recursively:
      • All ground types are the same (UInt and UInt are same, SInt and UInt are not), but widths can be different (implicit trunction/padding occurs)
      • All vector types are the same length
      • All bundle types have the same member names, but the flips of members can be different between producer and consumer
    • The leaf members that are ultimately assigned to, must be assignable. This means they cannot be module inputs or instance outputs.

    Additional notes:

    • Connecting two util.DecoupledIO's would connect bits and valid from producer to consumer, but leave ready unconnected
    Definition Classes
    ConnectableOpExtension
  9. final def :<>=(producer: DontCare.type)(implicit sourceInfo: SourceInfo): Unit

    The "bi-direction connection operator", aka the "tur-duck-en operator"

    The "bi-direction connection operator", aka the "tur-duck-en operator"

    For consumer :<>= producer, both producer and consumer leafs could be driving or be driven-to. The consumer's members aligned w.r.t. consumer will be driven by corresponding members of producer; the producer's members flipped w.r.t. producer will be driven by corresponding members of consumer

    Identical to calling :<= and :>= in sequence (order is irrelevant), e.g. consumer :<= producer then consumer :>= producer

    Symbol reference:

    • ':' is the consumer side
    • '=' is the producer side
    • '<' means to connect from producer to consumer
    • '>' means to connect from consumer to producer

    The following restrictions apply:

    • The Chisel type of consumer and producer must be the "same shape" recursively:
      • All ground types are the same (UInt and UInt are same, SInt and UInt are not), but widths can be different (implicit trunction/padding occurs)
      • All vector types are the same length
      • All bundle types have the same member names, but the flips of members can be different between producer and consumer
    • The leaf members that are ultimately assigned to, must be assignable. This means they cannot be module inputs or instance outputs. - An additional type restriction is that all relative orientations of consumer and producer must match exactly.

    Additional notes:

    • Connecting two wires of util.DecoupledIO chisel type would connect bits and valid from producer to consumer, and ready from consumer to producer.
    • If the types of consumer and producer also have identical relative flips, then we can emit FIRRTL.<= as it is a stricter version of chisel3.:<>=
    • "turk-duck-en" is a dish where a turkey is stuffed with a duck, which is stuffed with a chicken; :<>= is a := stuffed with a <>
    producer

    the right-hand-side of the connection

    Definition Classes
    ConnectableOpExtension
  10. final def :<>=[S <: Data](producer: connectable.Connectable[S])(implicit evidence: =:=[T, S], sourceInfo: SourceInfo): Unit

    The "bi-direction connection operator", aka the "tur-duck-en operator"

    The "bi-direction connection operator", aka the "tur-duck-en operator"

    For consumer :<>= producer, both producer and consumer leafs could be driving or be driven-to. The consumer's members aligned w.r.t. consumer will be driven by corresponding members of producer; the producer's members flipped w.r.t. producer will be driven by corresponding members of consumer

    Identical to calling :<= and :>= in sequence (order is irrelevant), e.g. consumer :<= producer then consumer :>= producer

    Symbol reference:

    • ':' is the consumer side
    • '=' is the producer side
    • '<' means to connect from producer to consumer
    • '>' means to connect from consumer to producer

    The following restrictions apply:

    • The Chisel type of consumer and producer must be the "same shape" recursively:
      • All ground types are the same (UInt and UInt are same, SInt and UInt are not), but widths can be different (implicit trunction/padding occurs)
      • All vector types are the same length
      • All bundle types have the same member names, but the flips of members can be different between producer and consumer
    • The leaf members that are ultimately assigned to, must be assignable. This means they cannot be module inputs or instance outputs. - An additional type restriction is that all relative orientations of consumer and producer must match exactly.

    Additional notes:

    • Connecting two wires of util.DecoupledIO chisel type would connect bits and valid from producer to consumer, and ready from consumer to producer.
    • If the types of consumer and producer also have identical relative flips, then we can emit FIRRTL.<= as it is a stricter version of chisel3.:<>=
    • "turk-duck-en" is a dish where a turkey is stuffed with a duck, which is stuffed with a chicken; :<>= is a := stuffed with a <>
    producer

    the right-hand-side of the connection

    Definition Classes
    ConnectableOpExtension
  11. final def :<>=[S <: Data](lProducer: => S)(implicit evidence: =:=[T, S], sourceInfo: SourceInfo): Unit

    The "bi-direction connection operator", aka the "tur-duck-en operator"

    The "bi-direction connection operator", aka the "tur-duck-en operator"

    For consumer :<>= producer, both producer and consumer leafs could be driving or be driven-to. The consumer's members aligned w.r.t. consumer will be driven by corresponding members of producer; the producer's members flipped w.r.t. producer will be driven by corresponding members of consumer

    Identical to calling :<= and :>= in sequence (order is irrelevant), e.g. consumer :<= producer then consumer :>= producer

    Symbol reference:

    • ':' is the consumer side
    • '=' is the producer side
    • '<' means to connect from producer to consumer
    • '>' means to connect from consumer to producer

    The following restrictions apply:

    • The Chisel type of consumer and producer must be the "same shape" recursively:
      • All ground types are the same (UInt and UInt are same, SInt and UInt are not), but widths can be different (implicit trunction/padding occurs)
      • All vector types are the same length
      • All bundle types have the same member names, but the flips of members can be different between producer and consumer
    • The leaf members that are ultimately assigned to, must be assignable. This means they cannot be module inputs or instance outputs. - An additional type restriction is that all relative orientations of consumer and producer must match exactly.

    Additional notes:

    • Connecting two wires of util.DecoupledIO chisel type would connect bits and valid from producer to consumer, and ready from consumer to producer.
    • If the types of consumer and producer also have identical relative flips, then we can emit FIRRTL.<= as it is a stricter version of chisel3.:<>=
    • "turk-duck-en" is a dish where a turkey is stuffed with a duck, which is stuffed with a chicken; :<>= is a := stuffed with a <>
    Definition Classes
    ConnectableOpExtension
  12. final def :>=(producer: DontCare.type)(implicit sourceInfo: SourceInfo): Unit

    The "flipped connection operator", or the "backpressure connection operator" between a producer and consumer.

    The "flipped connection operator", or the "backpressure connection operator" between a producer and consumer.

    For consumer :>= producer, each of producer's leaf members which are flipped with respect to producer are driven from the corresponding consumer leaf member Only producer's leaf/branch alignments influence the connection.

    Symbol reference:

    • ':' is the consumer side
    • '=' is the producer side
    • '>' means to connect from consumer to producer

    The following restrictions apply:

    • The Chisel type of consumer and producer must be the "same shape" recursively:
      • All ground types are the same (UInt and UInt are same, SInt and UInt are not), but widths can be different (implicit trunction/padding occurs)
      • All vector types are the same length
      • All bundle types have the same member names, but the flips of members can be different between producer and consumer
    • The leaf members that are ultimately assigned to, must be assignable. This means they cannot be module inputs or instance outputs.

    Additional notes:

    • Connecting two util.DecoupledIO's would connect ready from consumer to producer, but leave bits and valid unconnected
    producer

    the right-hand-side of the connection; will always be driven by leaf connections, and never drive leaf connections ("flipped connection")

    Definition Classes
    ConnectableOpExtension
  13. final def :>=[S <: Data](producer: connectable.Connectable[S])(implicit evidence: =:=[T, S], sourceInfo: SourceInfo): Unit

    The "flipped connection operator", or the "backpressure connection operator" between a producer and consumer.

    The "flipped connection operator", or the "backpressure connection operator" between a producer and consumer.

    For consumer :>= producer, each of producer's leaf members which are flipped with respect to producer are driven from the corresponding consumer leaf member Only producer's leaf/branch alignments influence the connection.

    Symbol reference:

    • ':' is the consumer side
    • '=' is the producer side
    • '>' means to connect from consumer to producer

    The following restrictions apply:

    • The Chisel type of consumer and producer must be the "same shape" recursively:
      • All ground types are the same (UInt and UInt are same, SInt and UInt are not), but widths can be different (implicit trunction/padding occurs)
      • All vector types are the same length
      • All bundle types have the same member names, but the flips of members can be different between producer and consumer
    • The leaf members that are ultimately assigned to, must be assignable. This means they cannot be module inputs or instance outputs.

    Additional notes:

    • Connecting two util.DecoupledIO's would connect ready from consumer to producer, but leave bits and valid unconnected
    producer

    the right-hand-side of the connection; will always be driven by leaf connections, and never drive leaf connections ("flipped connection")

    Definition Classes
    ConnectableOpExtension
  14. final def :>=[S <: Data](lProducer: => S)(implicit evidence: =:=[T, S], sourceInfo: SourceInfo): Unit

    The "flipped connection operator", or the "backpressure connection operator" between a producer and consumer.

    The "flipped connection operator", or the "backpressure connection operator" between a producer and consumer.

    For consumer :>= producer, each of producer's leaf members which are flipped with respect to producer are driven from the corresponding consumer leaf member Only producer's leaf/branch alignments influence the connection.

    Symbol reference:

    • ':' is the consumer side
    • '=' is the producer side
    • '>' means to connect from consumer to producer

    The following restrictions apply:

    • The Chisel type of consumer and producer must be the "same shape" recursively:
      • All ground types are the same (UInt and UInt are same, SInt and UInt are not), but widths can be different (implicit trunction/padding occurs)
      • All vector types are the same length
      • All bundle types have the same member names, but the flips of members can be different between producer and consumer
    • The leaf members that are ultimately assigned to, must be assignable. This means they cannot be module inputs or instance outputs.

    Additional notes:

    • Connecting two util.DecoupledIO's would connect ready from consumer to producer, but leave bits and valid unconnected
    Definition Classes
    ConnectableOpExtension
  15. final def ==(arg0: Any): Boolean
    Definition Classes
    AnyRef → Any
  16. final def asInstanceOf[T0]: T0
    Definition Classes
    Any
  17. def clone(): AnyRef
    Attributes
    protected[lang]
    Definition Classes
    AnyRef
    Annotations
    @throws(classOf[java.lang.CloneNotSupportedException]) @native() @HotSpotIntrinsicCandidate()
  18. final def eq(arg0: AnyRef): Boolean
    Definition Classes
    AnyRef
  19. def equals(arg0: AnyRef): Boolean
    Definition Classes
    AnyRef → Any
  20. final def getClass(): Class[_ <: AnyRef]
    Definition Classes
    AnyRef → Any
    Annotations
    @native() @HotSpotIntrinsicCandidate()
  21. def hashCode(): Int
    Definition Classes
    AnyRef → Any
    Annotations
    @native() @HotSpotIntrinsicCandidate()
  22. final def isInstanceOf[T0]: Boolean
    Definition Classes
    Any
  23. final def ne(arg0: AnyRef): Boolean
    Definition Classes
    AnyRef
  24. final def notify(): Unit
    Definition Classes
    AnyRef
    Annotations
    @native() @HotSpotIntrinsicCandidate()
  25. final def notifyAll(): Unit
    Definition Classes
    AnyRef
    Annotations
    @native() @HotSpotIntrinsicCandidate()
  26. final def synchronized[T0](arg0: => T0): T0
    Definition Classes
    AnyRef
  27. def toString(): String
    Definition Classes
    AnyRef → Any
  28. final def wait(arg0: Long, arg1: Int): Unit
    Definition Classes
    AnyRef
    Annotations
    @throws(classOf[java.lang.InterruptedException])
  29. final def wait(arg0: Long): Unit
    Definition Classes
    AnyRef
    Annotations
    @throws(classOf[java.lang.InterruptedException]) @native()
  30. final def wait(): Unit
    Definition Classes
    AnyRef
    Annotations
    @throws(classOf[java.lang.InterruptedException])

Deprecated Value Members

  1. def finalize(): Unit
    Attributes
    protected[lang]
    Definition Classes
    AnyRef
    Annotations
    @throws(classOf[java.lang.Throwable]) @Deprecated
    Deprecated

Inherited from ConnectableOperators[T]

Inherited from ConnectableOpExtension[T]

Inherited from ConnectableDocs

Inherited from AnyRef

Inherited from Any

connection

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