NameAnalyser

Value Members

1. final def !=(arg0: AnyRef): Boolean

   Definition Classes

   AnyRef

2. final def !=(arg0: Any): Boolean

   Definition Classes

   Any

3. final def ##(): Int

   Definition Classes

   AnyRef → Any

4. final def ==(arg0: AnyRef): Boolean

   Definition Classes

   AnyRef

5. final def ==(arg0: Any): Boolean

   Definition Classes

   Any

6. final def asInstanceOf[T0]: T0

   Definition Classes

   Any

7. lazy val booleanType: BuiltinType

   Built-in Boolean type.

   Built-in Boolean type.

   Definition Classes

   SymbolTable

8. def checkNonLocalVarAccess(u: IdnUse): Messages

   Check for non-local variable and procedure accesses.

   Check for non-local variable and procedure accesses. In the L3 language non-local variable accesses are disallowed, unless they are to a variable at the top level. Non-local procedure accesses are just disallowed.

9. def clone(): AnyRef

   Attributes

   protected[java.lang]

   Definition Classes

   AnyRef

   Annotations

   @throws( ... )

10. def defenv: Environment

    The default environment.

    The default environment.

    Definition Classes

    SymbolTable

11. def defenvPairs: Seq[(String, Entity)]

    The default environment with pre-defined procedures added.

    The default environment with pre-defined procedures added.

    Definition Classes

    SymbolTable → SymbolTable

12. def define(env: Environment, i: String, e: Entity): Environment

    Definition Classes

    Environments

13. def enter(env: Environment): Environment

    Definition Classes

    Environments

14. lazy val entity: (Identifier) ⇒ Entity

    The program entity referred to by an identifier definition or use.

    The program entity referred to by an identifier definition or use. In the case of a definition it's the thing being defined, so define it to be a reference to the declaration. If it's already defined, return a entity that indicates a multiple definition. In the case of a use, it's the thing defined elsewhere that is being referred to here, so look it up in the environment.

    Definition Classes

    NameAnalyser

15. def entityFromDecl(n: IdnDef, i: String): Entity

    The entity for an identifier definition as given by its declaration context.

    The entity for an identifier definition as given by its declaration context.

    Definition Classes

    NameAnalyser → NameAnalyser

16. lazy val env: Chain[SourceTree, Environment]

    The environment containing bindings for all identifiers visible at the given node.

    The environment containing bindings for all identifiers visible at the given node. It starts at the module declaration with the default environment. At blocks we enter a nested scope which is removed on exit from the block. At constant and type declarations the left-hand side binding is not in scope on the right-hand side. Each identifier definition just adds its binding to the chain. The envout cases for assignment and expression mean that we don't need to traverse into those constructs, since declarations can't occur there.

    Definition Classes

    NameAnalyser

17. def envin(in: (SourceTree) ⇒ Environment): ==>[SourceTree, Environment]

    Definition Classes

    NameAnalyser → NameAnalyser

18. def envinl(in: (SourceTree) ⇒ Environment): ==>[SourceTree, Environment]

    Blocks that are immediately inside procedure decls do not introduce new scopes since the procedure itself does.

    Blocks that are immediately inside procedure decls do not introduce new scopes since the procedure itself does. This computation overrides the one earlier that pushes a scope for all blocks. Don't include the procedure name in the scope of its own body.

19. def envout(out: (SourceTree) ⇒ Environment): ==>[SourceTree, Environment]

    Definition Classes

    NameAnalyser → NameAnalyser

20. def envoutl(out: (SourceTree) ⇒ Environment): ==>[SourceTree, Environment]

    Similarly for envin we don't need to leave a scope for a procedure block, since we didn't enter one.

    Similarly for envin we don't need to leave a scope for a procedure block, since we didn't enter one. The IdnDef that is for a ProcDecl needs to be in the outer scope, but not in the scope of its own body. All arguments and local declarations go in the nested scope.

21. final def eq(arg0: AnyRef): Boolean

    Definition Classes

    AnyRef

22. def equals(arg0: Any): Boolean

    Definition Classes

    AnyRef → Any

23. val errors: attribution.Attribution.CachedAttribute[Any, Seq[Message]]

    The semantic errors for a tree.

    The semantic errors for a tree.

    Definition Classes

    Analyser

24. def errorsDef(n: SourceTree): Messages

    The error checking for this level.

    The error checking for this level.

    Definition Classes

    NameAnalyser → NameAnalyser → Analyser

25. lazy val expconst: (Expression) ⇒ Boolean

    Is an expression expected to be constant or not? Either the expression is the root of an expected constant expression or its parent expression is expected to be constant.

    Is an expression expected to be constant or not? Either the expression is the root of an expected constant expression or its parent expression is expected to be constant.

    Definition Classes

    NameAnalyser

26. lazy val falseConstant: IntegerValue

    Built-in false constant.

    Built-in false constant.

    Definition Classes

    SymbolTable

27. def finalize(): Unit

    Attributes

    protected[java.lang]

    Definition Classes

    AnyRef

    Annotations

    @throws( classOf[java.lang.Throwable] )

28. final def getClass(): Class[_]

    Definition Classes

    AnyRef → Any

29. def hashCode(): Int

    Definition Classes

    AnyRef → Any

30. lazy val integerType: BuiltinType

    Built-in integer type.

    Built-in integer type.

    Definition Classes

    SymbolTable

31. def isBoolean(e: Type): Boolean

    Return true if the given type is Boolean or an unknown type.

    Return true if the given type is Boolean or an unknown type.

    Definition Classes

    SymbolTable

32. def isConstant(e: Entity): Boolean

    Return true if the entity is erroneous or is a constant.

    Return true if the entity is erroneous or is a constant.

    Definition Classes

    SymbolTable

33. def isDefinedInEnv(env: Environment, i: String): Boolean

    Definition Classes

    Environments

34. def isDefinedInInner(env: Environment, i: String): Boolean

    Definition Classes

    Environments

35. def isDefinedInOuter(env: Environment, i: String): Boolean

    Definition Classes

    Environments

36. def isDefinedInScope(scope: Scope, i: String): Boolean

    Definition Classes

    Environments

37. def isDefinedInScope(env: Environment, i: String): Boolean

    Definition Classes

    Environments

38. def isError(e: Entity): Boolean

    Return true if the entity is an error, false otherwise.

    Return true if the entity is an error, false otherwise.

    Definition Classes

    SymbolTable

39. final def isInstanceOf[T0]: Boolean

    Definition Classes

    Any

40. def isInteger(e: Type): Boolean

    Return true if the given type is integer or an unknown type.

    Return true if the given type is integer or an unknown type.

    Definition Classes

    SymbolTable

41. def isLvalue(l: Expression): Boolean

    Return true if the expression can legally appear on the left-hand side of an assignment statement.

    Return true if the expression can legally appear on the left-hand side of an assignment statement. At this level only allow identifiers of variables or things we don't know anything about. The true default is used so that this computation can be used in redefinitions.

    Definition Classes

    NameAnalyser

42. def isModule(e: Entity): Boolean

    Return true if the entity is erroneous or is a module.

    Return true if the entity is erroneous or is a module.

    Definition Classes

    SymbolTable

43. def isRvalue(r: IdnExp): Boolean

    Return true if the identifier is an r-value and hence its value can be used (ie.

    Return true if the identifier is an r-value and hence its value can be used (ie. it's erroneous or is a constant, value or variable).

    Definition Classes

    NameAnalyser

44. def isType(e: Entity): Boolean

    Return true if the entity is erroneous or is a type.

    Return true if the entity is erroneous or is a type.

    Definition Classes

    SymbolTable

45. def isVariable(e: Entity): Boolean

    Parameters are variables too.

    Parameters are variables too.

    Definition Classes

    SymbolTable → SymbolTable

46. lazy val isconst: (Expression) ⇒ Boolean

    Is an expression constant or not? Unknown entities are constant.

    Is an expression constant or not? Unknown entities are constant. Strictly speaking we only need to support integer expressions here, but we treat Boolean ones as constant in the same way so that we avoid spurious errors. Type analysis will reject Boolean constant expressions anyway.

    Definition Classes

    NameAnalyser

47. def leave(env: Environment): Environment

    Definition Classes

    Environments

48. lazy val level: (SourceTree) ⇒ Int

    Level of a node considering the module level to be zero and incrementing each time we enter a nested procedure declaration.

49. def lookup(env: Environment, i: String, e: Entity, scope: Boolean): Entity

    Definition Classes

    Environments

50. val nameCounter: Counter

    Definition Classes

    Environments

51. final def ne(arg0: AnyRef): Boolean

    Definition Classes

    AnyRef

52. final def notify(): Unit

    Definition Classes

    AnyRef

53. final def notifyAll(): Unit

    Definition Classes

    AnyRef

54. lazy val readProc: BuiltinProc

    The built-in Read procedure.

    The built-in Read procedure.

    Definition Classes

    SymbolTable

55. def resetEnvironments(): Unit

    Definition Classes

    Environments

56. lazy val rootconstexp: (Expression) ⇒ Boolean

    Is this expression the root of what is expected to be a constant expression? At this level only expressions on the RHS of a constant declaration have this property.

    Is this expression the root of what is expected to be a constant expression? At this level only expressions on the RHS of a constant declaration have this property.

    Definition Classes

    NameAnalyser

57. def rootconstexpDef: (Expression) ⇒ Boolean

    Definition Classes

    NameAnalyser → NameAnalyser

58. def rootenv(bindings: (String, Entity)*): Environment

    Definition Classes

    Environments

59. final def synchronized[T0](arg0: ⇒ T0): T0

    Definition Classes

    AnyRef

60. def toString(): String

    Definition Classes

    AnyRef → Any

61. lazy val trueConstant: IntegerValue

    Built-in true constant.

    Built-in true constant.

    Definition Classes

    SymbolTable

62. lazy val unknownType: BuiltinType

    A type that is unknown, eg because the typed thing is erroneously defined.

    A type that is unknown, eg because the typed thing is erroneously defined.

    Definition Classes

    SymbolTable

63. lazy val value: (Expression) ⇒ Int

    What is the value of an integer expression? Only needs to be valid if the expression is an integer constant (see isconst above) and is defined (eg, no divide by zero.

    What is the value of an integer expression? Only needs to be valid if the expression is an integer constant (see isconst above) and is defined (eg, no divide by zero.) Returns zero in all other cases. FIXME: Ignores issues of overflow.

    Definition Classes

    NameAnalyser

64. final def wait(): Unit

    Definition Classes

    AnyRef

    Annotations

    @throws( ... )

65. final def wait(arg0: Long, arg1: Int): Unit

    Definition Classes

    AnyRef

    Annotations

    @throws( ... )

66. final def wait(arg0: Long): Unit

    Definition Classes

    AnyRef

    Annotations

    @throws( ... )

67. lazy val writeProc: BuiltinProc

    The built-in Write procedure.

    The built-in Write procedure.

    Definition Classes

    SymbolTable

68. lazy val writelnProc: BuiltinProc

    The built-in WriteLn procedure.

    The built-in WriteLn procedure.

    Definition Classes

    SymbolTable