Function Line Number at Time
the line processed at time s
Format:
the line at time s
Input:
Output:
Conditional properties that reference this function:
if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = Python list elements
- Expression Stack at time t = [ ]
then Expression Stack at time (t + 1) = [ [ Python list elements, [ ] ], [ ] ]
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = Python list elements
- Expression Stack at time t = [ ]
then the line at time (t + 1) = i
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = Python list elements
- Expression Stack at time t = [ ]
then the tab at time (t + 1) = j
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = Python list elements
- Expression Stack at time t = [ ]
then Value Stack at time (t + 1) = [ [ ], [ ] ]
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = Python list elements
- Expression Stack at time t = [ ]
then Python Object Store at time (t + 1) = Python Object Store at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = Python list elements
- Expression Stack at time t = [ ]
then Control Map at time (t + 1) = Control Map at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = Python list elements
- Expression Stack at time t = [ ]
then Variables Map at time (t + 1) = Variables Map at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = Python list elements
- Expression Stack at time t = [ ]
then Context Stack at time (t + 1) = Context Stack at time t
(link)if Expression Stack at time t = [ [ Python list elements, ys ], rest ], then the line at time (t + 1) = the line at time t
(link)if Expression Stack at time t = [ [ ], [ [ Python list elements, ys ], rest ] ], then the line at time (t + 1) = the line at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = Python list elements
then Variables Map at time (t + 1) = Variables Map at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = Python list elements
then Context Stack at time (t + 1) = Context Stack at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = Python list elements
then Class Map at time (t + 1) = Class Map at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = assign statement with target x and expression (Python list elements)
- Expression Stack at time t = [ ]
then Expression Stack at time (t + 1) = [ [ Python list elements, [ ] ], [ ] ]
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = assign statement with target x and expression (Python list elements)
- Expression Stack at time t = [ ]
then the line at time (t + 1) = i
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = assign statement with target x and expression (Python list elements)
- Expression Stack at time t = [ ]
then the tab at time (t + 1) = j
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = assign statement with target x and expression (Python list elements)
- Expression Stack at time t = [ ]
then Variables Map at time (t + 1) = Variables Map at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = assign statement with target x and expression (Python list elements)
- Expression Stack at time t = [ ]
then Context Stack at time (t + 1) = Context Stack at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = assign statement with target x and expression (Python list elements)
- Expression Stack at time t = [ ]
then Value Stack at time (t + 1) = [ [ ], [ ] ]
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = assign statement with target x and expression (Python list elements)
- Expression Stack at time t = [ ]
then Python Object Store at time (t + 1) = Python Object Store at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = assign statement with target x and expression (Python list elements)
- Expression Stack at time t = [ ]
then Control Map at time (t + 1) = Control Map at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = obj_name.method_name(args)
- Expression Stack at time t = [ ]
then Expression Stack at time (t + 1) = [ [ obj_name.method_name(args), [ ] ], [ ] ]
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = obj_name.method_name(args)
- Expression Stack at time t = [ ]
then the line at time (t + 1) = i
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = obj_name.method_name(args)
- Expression Stack at time t = [ ]
then the tab at time (t + 1) = j
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = obj_name.method_name(args)
- Expression Stack at time t = [ ]
then Value Stack at time (t + 1) = [ [ ], [ ] ]
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = obj_name.method_name(args)
- Expression Stack at time t = [ ]
then Python Object Store at time (t + 1) = Python Object Store at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = obj_name.method_name(args)
- Expression Stack at time t = [ ]
then Control Map at time (t + 1) = Control Map at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = obj_name.method_name(args)
- Expression Stack at time t = [ ]
then Variables Map at time (t + 1) = Variables Map at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = obj_name.method_name(args)
- Expression Stack at time t = [ ]
then Context Stack at time (t + 1) = Context Stack at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = obj_name.method_name(args)
then Class Map at time (t + 1) = Class Map at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = assign statement with target target and expression (obj_name.method_name(args))
- Expression Stack at time t = [ ]
then Expression Stack at time (t + 1) = [ [ obj_name.method_name(args), [ ] ], [ ] ]
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = assign statement with target target and expression (obj_name.method_name(args))
- Expression Stack at time t = [ ]
then the line at time (t + 1) = i
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = assign statement with target target and expression (obj_name.method_name(args))
- Expression Stack at time t = [ ]
then the tab at time (t + 1) = j
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = assign statement with target target and expression (obj_name.method_name(args))
- Expression Stack at time t = [ ]
then Value Stack at time (t + 1) = [ [ ], [ ] ]
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = assign statement with target target and expression (obj_name.method_name(args))
- Expression Stack at time t = [ ]
then Python Object Store at time (t + 1) = Python Object Store at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = assign statement with target target and expression (obj_name.method_name(args))
- Expression Stack at time t = [ ]
then Control Map at time (t + 1) = Control Map at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = assign statement with target target and expression (obj_name.method_name(args))
- Expression Stack at time t = [ ]
then Variables Map at time (t + 1) = Variables Map at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = assign statement with target target and expression (obj_name.method_name(args))
- Expression Stack at time t = [ ]
then Context Stack at time (t + 1) = Context Stack at time t
(link)if Expression Stack at time t = [ [ obj_name.method_name(args), ys ], rest ], then the line at time (t + 1) = the line at time t
(link)if Expression Stack at time t = [ [ ], [ [
(link)obj.append(x), ys ], rest ] ], then the line at time (t + 1) = the line at time tif the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = obj.name(el)
- Expression Stack at time t = [ [ ], [ ] ]
then the line at time (t + 1) = i + 1
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = obj.name(el)
- Expression Stack at time t = [ [ ], [ ] ]
then Context Stack at time (t + 1) = Context Stack at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = obj.name(el)
- Expression Stack at time t = [ [ ], [ ] ]
then Variables Map at time (t + 1) = Variables Map at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = obj.name(el)
- Expression Stack at time t = [ [ ], [ ] ]
then the tab at time (t + 1) = the tab at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = obj.name(el)
- Expression Stack at time t = [ [ ], [ ] ]
then Control Map at time (t + 1) = Control Map at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = obj.name(el)
- Expression Stack at time t = [ [ ], [ ] ]
then Python Object Store at time (t + 1) = Python Object Store at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = function call with name: "__getitem__" and arguments: args
- Expression Stack at time t = [ ]
then Python Object Store at time (t + 1) = Python Object Store at time t
(link)if Expression Stack at time t = [ [ ], [ [ function call with name: "__getitem__" and arguments: args, ys ], rest ] ], then the line at time (t + 1) = the line at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = function call with name: "len" and arguments: args
- Expression Stack at time t = [ ]
then Python Object Store at time (t + 1) = Python Object Store at time t
(link)if Expression Stack at time t = [ [ ], [ [ function call with name: "len" and arguments: args, ys ], rest ] ], then the line at time (t + 1) = the line at time t
(link)if Expression Stack at time t = [ [ ], [ [ name."pop"(args), ys ], rest ] ], then the line at time (t + 1) = the line at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = function call with name: "__contains__" and arguments: args
- Expression Stack at time t = [ ]
then Python Object Store at time (t + 1) = Python Object Store at time t
(link)if Expression Stack at time t = [ [ ], [ [ function call with name: "__contains__" and arguments: args, ys ], rest ] ], then the line at time (t + 1) = the line at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = Python dictionary entries
- Expression Stack at time t = [ ]
then Expression Stack at time (t + 1) = [ [ Python dictionary entries, [ ] ], [ ] ]
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = Python dictionary entries
- Expression Stack at time t = [ ]
then the line at time (t + 1) = i
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = Python dictionary entries
- Expression Stack at time t = [ ]
then the tab at time (t + 1) = j
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = Python dictionary entries
- Expression Stack at time t = [ ]
then Value Stack at time (t + 1) = [ [ ], [ ] ]
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = Python dictionary entries
- Expression Stack at time t = [ ]
then Python Object Store at time (t + 1) = Python Object Store at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = Python dictionary entries
- Expression Stack at time t = [ ]
then Control Map at time (t + 1) = Control Map at time t
(link)if Expression Stack at time t = [ [ Python dictionary entries, ys ], rest ], then the line at time (t + 1) = the line at time t
(link)if Expression Stack at time t = [ [ ], [ [ Python dictionary entries, ys ], rest ] ], then the line at time (t + 1) = the line at time t
(link)if Expression Stack at time t = [ [ entry key: value, ys ], rest ], then the line at time (t + 1) = the line at time t
(link)if Expression Stack at time t = [ [ ], [ [ entry key: value, ys ], rest ] ], then the line at time (t + 1) = the line at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = assign statement with target x and expression (Python dictionary elements)
- Expression Stack at time t = [ ]
then Expression Stack at time (t + 1) = [ [ Python dictionary elements, [ ] ], [ ] ]
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = assign statement with target x and expression (Python dictionary elements)
- Expression Stack at time t = [ ]
then the line at time (t + 1) = i
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = assign statement with target x and expression (Python dictionary elements)
- Expression Stack at time t = [ ]
then the tab at time (t + 1) = j
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = assign statement with target x and expression (Python dictionary elements)
- Expression Stack at time t = [ ]
then Variables Map at time (t + 1) = Variables Map at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = assign statement with target x and expression (Python dictionary elements)
- Expression Stack at time t = [ ]
then Context Stack at time (t + 1) = Context Stack at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = assign statement with target x and expression (Python dictionary elements)
- Expression Stack at time t = [ ]
then Value Stack at time (t + 1) = [ [ ], [ ] ]
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = assign statement with target x and expression (Python dictionary elements)
- Expression Stack at time t = [ ]
then Python Object Store at time (t + 1) = Python Object Store at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = function call with name: "__setitem__" and arguments: args
- Expression Stack at time t = [ ]
then Python Object Store at time (t + 1) = Python Object Store at time t
(link)if Expression Stack at time t = [ [ ], [ [ function call with name: "__setitem__" and arguments: args, ys ], rest ] ], then the line at time (t + 1) = the line at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = a class named name with bases: bases
then Class Map at time (t + 1) = result of storing [ entry "bases": bases, [ entry "methods": [ ], [ entry "line": i, [ ] ] ] ] at key: name in map: (Class Map at time t)
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = a class named name with bases: bases
then Control Map at time (t + 1) = result of storing (pair ("class", name)) at key: j in map: (Control Map at time t)
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = a class named name with bases: bases
then the line at time (t + 1) = i + 1
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = a class named name with bases: bases
then the tab at time (t + 1) = j + 1
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = a class named name with bases: bases
then Variables Map at time (t + 1) = Variables Map at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = a class named name with bases: bases
then Context Stack at time (t + 1) = Context Stack at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = a class named name with bases: bases
then "if" map at time (t + 1) = "if" map at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = a class named name with bases: bases
then 'while stack' at time (t + 1) = 'while stack' at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = a class named name with bases: bases
then Python Object Store at time (t + 1) = Python Object Store at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab k = s
- k < j
- value at (j - 1) in map (Control Map at time t) = pair ("class", class_name)
then the line at time (t + 1) = the line at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab k = s
- k < j
- value at (j - 1) in map (Control Map at time t) = pair ("class", class_name)
then the tab at time (t + 1) = j - 1
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab k = s
- k < j
- value at (j - 1) in map (Control Map at time t) = pair ("class", class_name)
then Expression Stack at time t = [ ]
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab k = s
- k < j
- value at (j - 1) in map (Control Map at time t) = pair ("class", class_name)
then Control Map at time (t + 1) = Control Map at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab k = s
- k < j
- value at (j - 1) in map (Control Map at time t) = pair ("class", class_name)
then Variables Map at time (t + 1) = Variables Map at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab k = s
- k < j
- value at (j - 1) in map (Control Map at time t) = pair ("class", class_name)
then Context Stack at time (t + 1) = Context Stack at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab k = s
- k < j
- value at (j - 1) in map (Control Map at time t) = pair ("class", class_name)
then "if" map at time (t + 1) = "if" map at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab k = s
- k < j
- value at (j - 1) in map (Control Map at time t) = pair ("class", class_name)
then Expression Stack at time (t + 1) = Expression Stack at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab k = s
- k < j
- value at (j - 1) in map (Control Map at time t) = pair ("class", class_name)
then Python Object Store at time (t + 1) = Python Object Store at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab k = s
- k < j
- value at (j - 1) in map (Control Map at time t) = pair ("class", class_name)
then 'while stack' at time (t + 1) = 'while stack' at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab k = s
- k < j
- value at (j - 1) in map (Control Map at time t) = pair ("class", class_name)
then Class Map at time (t + 1) = Class Map at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = a method named method_name with parameters params
then the line at time (t + 1) = i + 1
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = a method named method_name with parameters params
then the tab at time (t + 1) = j
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = a method named method_name with parameters params
then Variables Map at time (t + 1) = Variables Map at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = a method named method_name with parameters params
then Context Stack at time (t + 1) = Context Stack at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = a method named method_name with parameters params
then "if" map at time (t + 1) = "if" map at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = a method named method_name with parameters params
then 'while stack' at time (t + 1) = 'while stack' at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = a method named method_name with parameters params
then Python Object Store at time (t + 1) = Python Object Store at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = a method named method_name with parameters params
then Control Map at time (t + 1) = Control Map at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = a method named method_name with parameters params
- value at class_name in map (Class Map at time t) = class_map
- value at "methods" in map class_map = methods_map
then Class Map at time (t + 1) = result of storing (result of storing (result of storing [ entry "params": params, [ entry "line": i, [ ] ] ] at key: method_name in map: methods_map) at key: "methods" in map: class_map) at key: class_name in map: (Class Map at time t)
(link)if the following are true:
- Expression Stack at time t = [ [ ], [ [ obj_name.method_name(args), ys ], rest ] ]
- value at obj_name in map (Variables Map at time t) = Python reference index
- the element at index index of stack (Python Object Store at time t) = Python object: [ entry "__class_name__": class_name, e_rest ]
- method parameters where the Class Map is (Class Map at time t), class name is class_name, and method name is method_name = params
- Parameters List at time t = None
- Value Stack at time t = [ values, v_stack ]
then the line at time (t + 1) = the line at time t
(link)if the following are true:
- Parameters List at time t = [ ]
- Expression Stack at time t = [ [ ], [ [ obj_name.method_name(args), ys ], rest ] ]
- value at obj_name in map (Variables Map at time t) = Python reference index
- the element at index index of stack (Python Object Store at time t) = Python object: [ entry "__class_name__": class_name, e_rest ]
- line number of method method_name of class class_name in (Class Map at time t) = line
then the line at time (t + 1) = line + 1
(link)if the following are true:
- Return Value at time t = [ r, [ ] ]
- Expression Stack at time t = [ [ ], [ [ name.method(args), ys ], rest ] ]
- Value Stack at time t = [ next_level, other_levels ]
then the line at time (t + 1) = the line at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = obj.mn(args)
- Expression Stack at time t = [ [ ], [ ] ]
then the line at time (t + 1) = i + 1
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = obj.mn(args)
- Expression Stack at time t = [ [ ], [ ] ]
then Expression Stack at time (t + 1) = [ ]
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = obj.mn(args)
- Expression Stack at time t = [ [ ], [ ] ]
then the tab at time (t + 1) = the tab at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = obj.mn(args)
- Expression Stack at time t = [ [ ], [ ] ]
then Variables Map at time (t + 1) = Variables Map at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = obj.mn(args)
- Expression Stack at time t = [ [ ], [ ] ]
then Context Stack at time (t + 1) = Context Stack at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = obj.mn(args)
- Expression Stack at time t = [ [ ], [ ] ]
then Python Object Store at time (t + 1) = Python Object Store at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = obj.mn(args)
- Expression Stack at time t = [ [ ], [ ] ]
then Control Map at time (t + 1) = Control Map at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = assign statement with target x and expression (obj_name.method_name(args))
- Expression Stack at time t = [ [ ], [ ] ]
- Value Stack at time t = [ [ value, [ ] ], [ ] ]
then Variables Map at time (t + 1) = result of storing value at key: x in map: (Variables Map at time t)
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = assign statement with target x and expression (obj_name.method_name(args))
- Expression Stack at time t = [ [ ], [ ] ]
- Value Stack at time t = [ [ value, [ ] ], [ ] ]
then the line at time (t + 1) = i + 1
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = assign statement with target x and expression (obj_name.method_name(args))
- Expression Stack at time t = [ [ ], [ ] ]
- Value Stack at time t = [ [ value, [ ] ], [ ] ]
then the tab at time (t + 1) = the tab at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = assign statement with target x and expression (obj_name.method_name(args))
- Expression Stack at time t = [ [ ], [ ] ]
- Value Stack at time t = [ [ value, [ ] ], [ ] ]
then Context Stack at time (t + 1) = Context Stack at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = assign statement with target x and expression (obj_name.method_name(args))
- Expression Stack at time t = [ [ ], [ ] ]
- Value Stack at time t = [ [ value, [ ] ], [ ] ]
then Python Object Store at time (t + 1) = Python Object Store at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = assign statement with target x and expression (obj_name.method_name(args))
- Expression Stack at time t = [ [ ], [ ] ]
- Value Stack at time t = [ [ value, [ ] ], [ ] ]
then Control Map at time (t + 1) = Control Map at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = assign statement with target x and expression (Python constructor with name: name and arguments: args)
- Expression Stack at time t = [ ]
then Expression Stack at time (t + 1) = [ [ Python constructor with name: name and arguments: args, [ ] ], [ ] ]
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = assign statement with target x and expression (Python constructor with name: name and arguments: args)
- Expression Stack at time t = [ ]
then Value Stack at time (t + 1) = [ [ ], [ ] ]
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = assign statement with target x and expression (Python constructor with name: name and arguments: args)
- Expression Stack at time t = [ ]
then the line at time (t + 1) = i
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = assign statement with target x and expression (Python constructor with name: name and arguments: args)
- Expression Stack at time t = [ ]
then the tab at time (t + 1) = j
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = assign statement with target x and expression (Python constructor with name: name and arguments: args)
- Expression Stack at time t = [ ]
then Variables Map at time (t + 1) = Variables Map at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = assign statement with target x and expression (Python constructor with name: name and arguments: args)
- Expression Stack at time t = [ ]
then Context Stack at time (t + 1) = Context Stack at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = assign statement with target x and expression (Python constructor with name: name and arguments: args)
- Expression Stack at time t = [ ]
then Python Object Store at time (t + 1) = Python Object Store at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = assign statement with target x and expression (Python constructor with name: name and arguments: args)
- Expression Stack at time t = [ ]
then Control Map at time (t + 1) = Control Map at time t
(link)if Expression Stack at time t = [ [ Python constructor with name: class_name and arguments: args, ys ], rest ], then the line at time (t + 1) = the line at time t
(link)if the following are true:
- Expression Stack at time t = [ [ ], [ [ Python constructor with name: class_name and arguments: args, ys ], rest ] ]
- Value Stack at time t = [ evaluated, stack ]
- method parameters where the Class Map is (Class Map at time t), class name is class_name, and method name is "__init__" = params
- Parameters List at time t = None
then the line at time (t + 1) = the line at time t
(link)if the following are true:
- Parameters List at time t = [ ]
- Expression Stack at time t = [ [ ], [ [ Python constructor with name: class_name and arguments: args, ys ], rest ] ]
- line number of method "__init__" of class class_name in (Class Map at time t) = line
then the line at time (t + 1) = line + 1
(link)if the following are true:
- Return Value at time t = [ r, [ ] ]
- Expression Stack at time t = [ [ ], [ [ Python constructor with name: clss_name and arguments: args, ys ], rest ] ]
- Value Stack at time t = [ next_level, other_levels ]
then the line at time (t + 1) = the line at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = assign statement with target x and expression (Python constructor with name: class_name and arguments: args)
- Expression Stack at time t = [ [ ], [ ] ]
- Value Stack at time t = [ [ value, [ ] ], [ ] ]
then Variables Map at time (t + 1) = result of storing value at key: x in map: (Variables Map at time t)
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = assign statement with target x and expression (Python constructor with name: class_name and arguments: args)
- Expression Stack at time t = [ [ ], [ ] ]
- Value Stack at time t = [ [ value, [ ] ], [ ] ]
then the line at time (t + 1) = i + 1
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = assign statement with target x and expression (Python constructor with name: class_name and arguments: args)
- Expression Stack at time t = [ [ ], [ ] ]
- Value Stack at time t = [ [ value, [ ] ], [ ] ]
then the tab at time (t + 1) = the tab at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = assign statement with target x and expression (Python constructor with name: class_name and arguments: args)
- Expression Stack at time t = [ [ ], [ ] ]
- Value Stack at time t = [ [ value, [ ] ], [ ] ]
then Context Stack at time (t + 1) = Context Stack at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = assign statement with target x and expression (Python constructor with name: class_name and arguments: args)
- Expression Stack at time t = [ [ ], [ ] ]
- Value Stack at time t = [ [ value, [ ] ], [ ] ]
then Python Object Store at time (t + 1) = Python Object Store at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = assign statement with target x and expression (Python constructor with name: class_name and arguments: args)
- Expression Stack at time t = [ [ ], [ ] ]
- Value Stack at time t = [ [ value, [ ] ], [ ] ]
then Control Map at time (t + 1) = Control Map at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = assign statement with target x and expression (obj.attr)
- Expression Stack at time t = [ ]
then Expression Stack at time (t + 1) = [ [ obj.attr, [ ] ], [ ] ]
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = assign statement with target x and expression (obj.attr)
- Expression Stack at time t = [ ]
then Value Stack at time (t + 1) = [ [ ], [ ] ]
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = assign statement with target x and expression (obj.attr)
- Expression Stack at time t = [ ]
then the line at time (t + 1) = i
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = assign statement with target x and expression (obj.attr)
- Expression Stack at time t = [ ]
then the tab at time (t + 1) = j
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = assign statement with target x and expression (obj.attr)
- Expression Stack at time t = [ ]
then Variables Map at time (t + 1) = Variables Map at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = assign statement with target x and expression (obj.attr)
- Expression Stack at time t = [ ]
then Context Stack at time (t + 1) = Context Stack at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = assign statement with target x and expression (obj.attr)
- Expression Stack at time t = [ ]
then Python Object Store at time (t + 1) = Python Object Store at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = assign statement with target x and expression (obj.attr)
- Expression Stack at time t = [ ]
then Control Map at time (t + 1) = Control Map at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = assign statement with target x and expression (obj.attr)
- Expression Stack at time t = [ [ ], [ ] ]
- Value Stack at time t = [ [ value, [ ] ], [ ] ]
then Variables Map at time (t + 1) = result of storing value at key: x in map: (Variables Map at time t)
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = assign statement with target x and expression (obj.attr)
- Expression Stack at time t = [ [ ], [ ] ]
- Value Stack at time t = [ [ value, [ ] ], [ ] ]
then the line at time (t + 1) = i + 1
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = assign statement with target x and expression (obj.attr)
- Expression Stack at time t = [ [ ], [ ] ]
- Value Stack at time t = [ [ value, [ ] ], [ ] ]
then the tab at time (t + 1) = the tab at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = assign statement with target x and expression (obj.attr)
- Expression Stack at time t = [ [ ], [ ] ]
- Value Stack at time t = [ [ value, [ ] ], [ ] ]
then Context Stack at time (t + 1) = Context Stack at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = assign statement with target x and expression (obj.attr)
- Expression Stack at time t = [ [ ], [ ] ]
- Value Stack at time t = [ [ value, [ ] ], [ ] ]
then Python Object Store at time (t + 1) = Python Object Store at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = assign statement with target x and expression (obj.attr)
- Expression Stack at time t = [ [ ], [ ] ]
- Value Stack at time t = [ [ value, [ ] ], [ ] ]
then Control Map at time (t + 1) = Control Map at time t
(link)if Expression Stack at time t = [ [ obj.attr, ys ], rest ], then the line at time (t + 1) = the line at time t
(link)if Expression Stack at time t = [ [ ], [ [ obj.attr, ys ], rest ] ], then the line at time (t + 1) = the line at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = obj.key = value
- Expression Stack at time t = [ ]
then Expression Stack at time (t + 1) = [ [ obj.key = value, [ ] ], [ ] ]
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = obj.key = value
- Expression Stack at time t = [ ]
then Value Stack at time (t + 1) = [ [ ], [ ] ]
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = obj.key = value
- Expression Stack at time t = [ ]
then the line at time (t + 1) = i
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = obj.key = value
- Expression Stack at time t = [ ]
then the tab at time (t + 1) = j
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = obj.key = value
- Expression Stack at time t = [ ]
then Python Object Store at time (t + 1) = Python Object Store at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = obj.key = value
- Expression Stack at time t = [ ]
then Control Map at time (t + 1) = Control Map at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = obj.key = value
- Expression Stack at time t = [ ]
then Variables Map at time (t + 1) = Variables Map at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = obj.key = value
- Expression Stack at time t = [ ]
then Context Stack at time (t + 1) = Context Stack at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = obj.key = value
then Class Map at time (t + 1) = Class Map at time t
(link)if Expression Stack at time t = [ [ obj.key = value, [ ] ], [ ] ], then the line at time (t + 1) = the line at time t
(link)if Expression Stack at time t = [ [ ], [ [ obj.attribute = val, ys ], rest ] ], then the line at time (t + 1) = the line at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = x.y = z
- Expression Stack at time t = [ [ ], [ ] ]
then the line at time (t + 1) = i + 1
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = x.y = z
- Expression Stack at time t = [ [ ], [ ] ]
then the tab at time (t + 1) = the tab at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = x.y = z
- Expression Stack at time t = [ [ ], [ ] ]
then Context Stack at time (t + 1) = Context Stack at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = x.y = z
- Expression Stack at time t = [ [ ], [ ] ]
then Variables Map at time (t + 1) = Variables Map at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = x.y = z
- Expression Stack at time t = [ [ ], [ ] ]
then Python Object Store at time (t + 1) = Python Object Store at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = x.y = z
- Expression Stack at time t = [ [ ], [ ] ]
then Control Map at time (t + 1) = Control Map at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = x.y = z
- Expression Stack at time t = [ [ ], [ ] ]
then Class Map at time (t + 1) = Class Map at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab k = s
- k < j
- value at (j - 1) in map (Control Map at time t) = pair ("method", method_name)
then Python Object Store at time (t + 1) = Python Object Store at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab k = s
- k < j
- value at (j - 1) in map (Control Map at time t) = pair ("method", method_name)
then Class Map at time (t + 1) = Class Map at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab k = s
- k < j
- value at (j - 1) in map (Control Map at time t) = pair ("method", mname)
- Context Stack at time t = [ program context with variables: varis and expression state: (expression state with expression stack: expr_stack values: value_stack line: line tab: tab) and control map: control_map, rest ]
then Variables Map at time (t + 1) = varis
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab k = s
- k < j
- value at (j - 1) in map (Control Map at time t) = pair ("method", mname)
- Context Stack at time t = [ program context with variables: varis and expression state: (expression state with expression stack: expr_stack values: value_stack line: line tab: tab) and control map: control_map, rest ]
then the line at time (t + 1) = line
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab k = s
- k < j
- value at (j - 1) in map (Control Map at time t) = pair ("method", mname)
- Context Stack at time t = [ program context with variables: varis and expression state: (expression state with expression stack: expr_stack values: value_stack line: line tab: tab) and control map: control_map, rest ]
then the tab at time (t + 1) = tab
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab k = s
- k < j
- value at (j - 1) in map (Control Map at time t) = pair ("method", mname)
- Context Stack at time t = [ program context with variables: varis and expression state: (expression state with expression stack: expr_stack values: value_stack line: line tab: tab) and control map: control_map, rest ]
then Expression Stack at time (t + 1) = expr_stack
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab k = s
- k < j
- value at (j - 1) in map (Control Map at time t) = pair ("method", mname)
- Context Stack at time t = [ program context with variables: varis and expression state: (expression state with expression stack: expr_stack values: value_stack line: line tab: tab) and control map: control_map, rest ]
then Context Stack at time (t + 1) = rest
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab k = s
- k < j
- value at (j - 1) in map (Control Map at time t) = pair ("method", mname)
- Context Stack at time t = [ program context with variables: varis and expression state: (expression state with expression stack: expr_stack values: value_stack line: line tab: tab) and control map: control_map, rest ]
then Value Stack at time (t + 1) = value_stack
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab k = s
- k < j
- value at (j - 1) in map (Control Map at time t) = pair ("method", mname)
- Context Stack at time t = [ program context with variables: varis and expression state: (expression state with expression stack: expr_stack values: value_stack line: line tab: tab) and control map: control_map, rest ]
then Control Map at time (t + 1) = control_map
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab k = s
- k < j
- value at (j - 1) in map (Control Map at time t) = pair ("method", "__init__")
then Return Value at time (t + 1) = [ value at self in map (Variables Map at time t), [ ] ]
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab k = s
- k < j
- value at (j - 1) in map (Control Map at time t) = pair ("method", method_name)
- not (method_name = "__init__")
then Return Value at time (t + 1) = [ None, [ ] ]
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j =
for target in iterable: - map (Control Map at time t) does not contain a for loop entry at line: i and tab: j
- Expression Stack at time t = [ ]
then Expression Stack at time (t + 1) = [ [ iterable, [ ] ], [ ] ]
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j =
for target in iterable: - map (Control Map at time t) does not contain a for loop entry at line: i and tab: j
- Expression Stack at time t = [ ]
then Value Stack at time (t + 1) = [ [ ], [ ] ]
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j =
for target in iterable: - map (Control Map at time t) does not contain a for loop entry at line: i and tab: j
- Expression Stack at time t = [ ]
then the line at time (t + 1) = i
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j =
for target in iterable: - map (Control Map at time t) does not contain a for loop entry at line: i and tab: j
- Expression Stack at time t = [ ]
then the tab at time (t + 1) = j
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j =
for target in iterable: - map (Control Map at time t) does not contain a for loop entry at line: i and tab: j
- Expression Stack at time t = [ ]
then Variables Map at time (t + 1) = Variables Map at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j =
for target in iterable: - map (Control Map at time t) does not contain a for loop entry at line: i and tab: j
- Expression Stack at time t = [ ]
then Python Object Store at time (t + 1) = Python Object Store at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j =
for target in iterable: - map (Control Map at time t) does not contain a for loop entry at line: i and tab: j
- Expression Stack at time t = [ ]
then Control Map at time (t + 1) = Control Map at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j =
for target in iterable: - iterable is a variable
then Context Stack at time (t + 1) = Context Stack at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j =
for target in iterable:
then Class Map at time (t + 1) = Class Map at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j =
for target in iterable: - Expression Stack at time t = [ [ ], [ ] ]
then the line at time (t + 1) = i
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j =
for target in iterable: - Expression Stack at time t = [ [ ], [ ] ]
then the tab at time (t + 1) = j
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j =
for target in iterable: - Expression Stack at time t = [ [ ], [ ] ]
then "if" map at time (t + 1) = "if" map at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j =
for target in iterable: - Expression Stack at time t = [ [ ], [ ] ]
then Python Object Store at time (t + 1) = Python Object Store at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j =
for target in iterable: - Expression Stack at time t = [ [ ], [ ] ]
then Variables Map at time (t + 1) = Variables Map at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j =
for target in iterable: - Expression Stack at time t = [ [ ], [ ] ]
then Context Stack at time (t + 1) = Context Stack at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j =
for target in iterable: - Expression Stack at time t = [ [ ], [ ] ]
then 'while stack' at time (t + 1) = 'while stack' at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j =
for target in iterable_ex: - Expression Stack at time t = [ [ ], [ ] ]
- Value Stack at time t = [ [ Python reference index, [ ] ], v_stack ]
- the element at index index of stack (Python Object Store at time t) = Python list elements
then Control Map at time (t + 1) = result of storing (trio ("for", i, elements)) at key: j in map: (Control Map at time t)
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j =
for target in iterable_ex: - value at j in map (Control Map at time t) = trio ("for", i, [ elem, rest ])
then Variables Map at time (t + 1) = result of storing elem at key: target in map: (Variables Map at time t)
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j =
for target in iterable_ex: - value at j in map (Control Map at time t) = trio ("for", i, [ elem, rest ])
then the line at time (t + 1) = i + 1
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j =
for target in iterable_ex: - value at j in map (Control Map at time t) = trio ("for", i, [ elem, rest ])
then the tab at time (t + 1) = j + 1
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j =
for target in iterable_ex: - value at j in map (Control Map at time t) = trio ("for", i, [ elem, rest ])
then Control Map at time (t + 1) = result of storing (trio ("for", i, rest)) at key: j in map: (Control Map at time t)
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j =
for target in iterable_ex: - value at j in map (Control Map at time t) = trio ("for", i, [ elem, rest ])
then Expression Stack at time (t + 1) = [ ]
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j =
for target in iterable_ex: - value at j in map (Control Map at time t) = trio ("for", i, [ elem, rest ])
then Context Stack at time (t + 1) = Context Stack at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j =
for target in iterable_ex: - value at j in map (Control Map at time t) = trio ("for", i, [ elem, rest ])
then Python Object Store at time (t + 1) = Python Object Store at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j =
for target in iterable_ex: - value at j in map (Control Map at time t) = trio ("for", i, [ ])
then the line at time (t + 1) = i + 1
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j =
for target in iterable_ex: - value at j in map (Control Map at time t) = trio ("for", i, [ ])
then the tab at time (t + 1) = j
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j =
for target in iterable_ex: - value at j in map (Control Map at time t) = trio ("for", i, [ ])
then Control Map at time (t + 1) = result of deleting the entry with key j from map (Control Map at time t)
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j =
for target in iterable_ex: - value at j in map (Control Map at time t) = trio ("for", i, [ ])
then Variables Map at time (t + 1) = Variables Map at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j =
for target in iterable_ex: - value at j in map (Control Map at time t) = trio ("for", i, [ ])
then Expression Stack at time (t + 1) = [ ]
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j =
for target in iterable_ex: - value at j in map (Control Map at time t) = trio ("for", i, [ ])
then Context Stack at time (t + 1) = Context Stack at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j =
for target in iterable_ex: - value at j in map (Control Map at time t) = trio ("for", i, [ ])
then Python Object Store at time (t + 1) = Python Object Store at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab k = s
- k < j
- value at (j - 1) in map (Control Map at time t) = trio ("for", for_line, iterable)
then the line at time (t + 1) = for_line
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab k = s
- k < j
- value at (j - 1) in map (Control Map at time t) = trio ("for", for_line, iterable)
then the tab at time (t + 1) = j - 1
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab k = s
- k < j
- value at (j - 1) in map (Control Map at time t) = trio ("for", for_line, iterable)
then Variables Map at time (t + 1) = Variables Map at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab k = s
- k < j
- value at (j - 1) in map (Control Map at time t) = trio ("for", for_line, iterable)
then Context Stack at time (t + 1) = Context Stack at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab k = s
- k < j
- value at (j - 1) in map (Control Map at time t) = trio ("for", for_line, iterable)
then Expression Stack at time (t + 1) = Expression Stack at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab k = s
- k < j
- value at (j - 1) in map (Control Map at time t) = trio ("for", for_line, iterable)
then Python Object Store at time (t + 1) = Python Object Store at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab k = s
- k < j
- value at (j - 1) in map (Control Map at time t) = trio ("for", for_line, iterable)
then Control Map at time (t + 1) = Control Map at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab k = s
- k < j
- value at (j - 1) in map (Control Map at time t) = trio ("for", for_line, iterable)
then Class Map at time (t + 1) = Class Map at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- number of lines = i - 1
- value at (j - 1) in map (Control Map at time t) = trio ("for", for_line, iterable)
then the line at time (t + 1) = for_line
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- number of lines = i - 1
- value at (j - 1) in map (Control Map at time t) = trio ("for", for_line, iterable)
then the tab at time (t + 1) = j - 1
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- number of lines = i - 1
- value at (j - 1) in map (Control Map at time t) = trio ("for", for_line, iterable)
then Variables Map at time (t + 1) = Variables Map at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- number of lines = i - 1
- value at (j - 1) in map (Control Map at time t) = trio ("for", for_line, iterable)
then Context Stack at time (t + 1) = Context Stack at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- number of lines = i - 1
- value at (j - 1) in map (Control Map at time t) = trio ("for", for_line, iterable)
then "if" map at time (t + 1) = "if" map at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- number of lines = i - 1
- value at (j - 1) in map (Control Map at time t) = trio ("for", for_line, iterable)
then Expression Stack at time (t + 1) = Expression Stack at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- number of lines = i - 1
- value at (j - 1) in map (Control Map at time t) = trio ("for", for_line, iterable)
then Python Object Store at time (t + 1) = Python Object Store at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- number of lines = i - 1
- value at (j - 1) in map (Control Map at time t) = trio ("for", for_line, iterable)
then Control Map at time (t + 1) = Control Map at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- number of lines = i - 1
- value at (j - 1) in map (Control Map at time t) = trio ("for", for_line, iterable)
then 'while stack' at time (t + 1) = 'while stack' at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- number of lines = i - 1
- value at (j - 1) in map (Control Map at time t) = trio ("for", for_line, iterable)
then Class Map at time (t + 1) = Class Map at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab k = s
- k > j
then the line at time (t + 1) = i + 1
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab k = s
- k > j
then expression state at time (t + 1) = "not_expr"
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab k = s
- k > j
then the tab at time (t + 1) = the tab at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab k = s
- k > j
then Variables Map at time (t + 1) = Variables Map at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab k = s
- k > j
then stack at time (t + 1) = stack at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab k = s
- k > j
then Python Object Store at time (t + 1) = Python Object Store at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab k = s
- k > j
then Control Map at time (t + 1) = Control Map at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab k = s
- k > j
then Class Map at time (t + 1) = Class Map at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab k = s
- k < j
- value at (j - 1) in map (Control Map at time t) = pair ("while", while_line)
then the line at time (t + 1) = while_line
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab k = s
- k < j
- value at (j - 1) in map (Control Map at time t) = pair ("while", while_line)
then the tab at time (t + 1) = j - 1
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab k = s
- k < j
- value at (j - 1) in map (Control Map at time t) = pair ("while", while_line)
then Variables Map at time (t + 1) = Variables Map at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab k = s
- k < j
- value at (j - 1) in map (Control Map at time t) = pair ("while", while_line)
then stack at time (t + 1) = stack at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab k = s
- k < j
- value at (j - 1) in map (Control Map at time t) = pair ("while", while_line)
then "if" map at time (t + 1) = "if" map at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab k = s
- k < j
- value at (j - 1) in map (Control Map at time t) = pair ("while", while_line)
then expression state at time (t + 1) = expression state at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab k = s
- k < j
- value at (j - 1) in map (Control Map at time t) = pair ("while", while_line)
then Python Object Store at time (t + 1) = Python Object Store at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab k = s
- k < j
- value at (j - 1) in map (Control Map at time t) = pair ("while", while_line)
then Class Map at time (t + 1) = Class Map at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab k = s
- k < j
- value at (j - 1) in map (Control Map at time t) = pair ("while", while_line)
then Control Map at time (t + 1) = Control Map at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- number of lines = i - 1
- value at (j - 1) in map (Control Map at time t) = pair ("while", while_line)
then the line at time (t + 1) = while_line
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- number of lines = i - 1
- value at (j - 1) in map (Control Map at time t) = pair ("while", while_line)
then the tab at time (t + 1) = j - 1
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- number of lines = i - 1
- value at (j - 1) in map (Control Map at time t) = pair ("while", while_line)
then Variables Map at time (t + 1) = Variables Map at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- number of lines = i - 1
- value at (j - 1) in map (Control Map at time t) = pair ("while", while_line)
then stack at time (t + 1) = stack at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- number of lines = i - 1
- value at (j - 1) in map (Control Map at time t) = pair ("while", while_line)
then expression state at time (t + 1) = expression state at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- number of lines = i - 1
- value at (j - 1) in map (Control Map at time t) = pair ("while", while_line)
then Python Object Store at time (t + 1) = Python Object Store at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- number of lines = i - 1
- value at (j - 1) in map (Control Map at time t) = pair ("while", while_line)
then Class Map at time (t + 1) = Class Map at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- number of lines = i - 1
- value at (j - 1) in map (Control Map at time t) = pair ("while", while_line)
then Control Map at time (t + 1) = Control Map at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab k = s
- k < j
then expression state at time (t + 1) = "not_expr"
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- number of lines = i - 1
- value at (j - 1) in map (Control Map at time t) = pair ("if", if_value)
then the line at time (t + 1) = i
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- number of lines = i - 1
- value at (j - 1) in map (Control Map at time t) = pair ("if", if_value)
then the tab at time (t + 1) = j - 1
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- number of lines = i - 1
- value at (j - 1) in map (Control Map at time t) = pair ("if", if_value)
then expression state at time (t + 1) = "not_expr"
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- number of lines = i - 1
- value at (j - 1) in map (Control Map at time t) = pair ("if", if_value)
then Variables Map at time (t + 1) = Variables Map at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- number of lines = i - 1
- value at (j - 1) in map (Control Map at time t) = pair ("if", if_value)
then stack at time (t + 1) = stack at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- number of lines = i - 1
- value at (j - 1) in map (Control Map at time t) = pair ("if", if_value)
then Class Map at time (t + 1) = Class Map at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- number of lines = i - 1
- value at (j - 1) in map (Control Map at time t) = pair ("if", if_value)
then Control Map at time (t + 1) = Control Map at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- "break" state at t = "breaking"
- value at (j - 1) in map (Control Map at time t) = control_value
- control_value describes a loop = True
then the line at time (t + 1) = i + 1
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- "break" state at t = "breaking"
- value at (j - 1) in map (Control Map at time t) = control_value
- control_value describes a loop = True
then "break" state at (t + 1) = "not_breaking"
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- "break" state at t = "breaking"
- value at (j - 1) in map (Control Map at time t) = control_value
- control_value describes a loop = False
then the line at time (t + 1) = i
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- "break" state at t = "breaking"
- value at (j - 1) in map (Control Map at time t) = control_value
- control_value describes a loop = False
then "break" state at (t + 1) = "breaking"
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- "continue" state at t = "continuing"
- value at (j - 1) in map (Control Map at time t) = control_value
- control_value describes a loop = True
then the line at time (t + 1) = while_line
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- "continue" state at t = "continuing"
- value at (j - 1) in map (Control Map at time t) = control_value
- control_value describes a loop = True
then "continue" state at (t + 1) = "not_continuing"
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- "continue" state at t = "continuing"
- value at (j - 1) in map (Control Map at time t) = control_value
- control_value describes a loop = False
then the line at time (t + 1) = i
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- "continue" state at t = "continuing"
- value at (j - 1) in map (Control Map at time t) = control_value
- control_value describes a loop = False
then "continue" state at (t + 1) = "continuing"
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = function call with name: name and arguments: args
- expression state at time t = "not_expr"
then the expression at time (t + 1) = function call with name: name and arguments: args
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = function call with name: name and arguments: args
- expression state at time t = "not_expr"
then expression state at time (t + 1) = "begin_expr"
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = function call with name: name and arguments: args
- expression state at time t = "not_expr"
then the line at time (t + 1) = i
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = function call with name: name and arguments: args
- expression state at time t = "not_expr"
then the tab at time (t + 1) = j
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = function call with name: name and arguments: args
- expression state at time t = "not_expr"
then Value Stack at time (t + 1) = [ ]
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = function call with name: name and arguments: args
- expression state at time t = "not_expr"
then parent stack at time (t + 1) = [ ]
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = function call with name: name and arguments: args
- expression state at time t = "not_expr"
then arguments stack at time (t + 1) = [ ]
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = function call with name: name and arguments: args
- expression state at time t = "not_expr"
then Control Map at time (t + 1) = Control Map at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = function call with name: name and arguments: args
- expression state at time t = "not_expr"
then Python Object Store at time (t + 1) = Python Object Store at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = function call with name: name and arguments: args
- expression state at time t = "end_expr"
then the line at time (t + 1) = i + 1
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = function call with name: name and arguments: args
- expression state at time t = "end_expr"
then the tab at time (t + 1) = the tab at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = function call with name: name and arguments: args
- expression state at time t = "end_expr"
then Variables Map at time (t + 1) = Variables Map at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = function call with name: name and arguments: args
- expression state at time t = "end_expr"
then stack at time (t + 1) = stack at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = function call with name: name and arguments: args
- expression state at time t = "end_expr"
then Control Map at time (t + 1) = Control Map at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = function call with name: name and arguments: args
- expression state at time t = "end_expr"
then Python Object Store at time (t + 1) = Python Object Store at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = function call with name: name and arguments: args
- expression state at time t = "end_expr"
then Class Map at time (t + 1) = Class Map at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = c
- c is constant
then Class Map at time (t + 1) = Class Map at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = c
- c is constant
then Control Map at time (t + 1) = Control Map at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = c
- c is constant
then Python Object Store at time (t + 1) = Python Object Store at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = c
- expression state at time t = "not_expr"
- c is constant
then the expression at time (t + 1) = c
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = c
- expression state at time t = "not_expr"
- c is constant
then expression state at time (t + 1) = "begin_expr"
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = c
- expression state at time t = "not_expr"
- c is constant
then the line at time (t + 1) = i
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = c
- expression state at time t = "not_expr"
- c is constant
then the tab at time (t + 1) = j
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = c
- expression state at time t = "not_expr"
- c is constant
then Value Stack at time (t + 1) = [ ]
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = c
- expression state at time t = "not_expr"
- c is constant
then parent stack at time (t + 1) = [ ]
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = c
- expression state at time t = "not_expr"
- c is constant
then arguments stack at time (t + 1) = [ ]
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = x
- expression state at time t = "not_expr"
- x is a variable
then the expression at time (t + 1) = x
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = x
- expression state at time t = "not_expr"
- x is a variable
then expression state at time (t + 1) = "begin_expr"
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = x
- expression state at time t = "not_expr"
- x is a variable
then the line at time (t + 1) = i
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = x
- expression state at time t = "not_expr"
- x is a variable
then the tab at time (t + 1) = j
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = x
- expression state at time t = "not_expr"
- x is a variable
then Value Stack at time (t + 1) = [ ]
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = x
- expression state at time t = "not_expr"
- x is a variable
then parent stack at time (t + 1) = [ ]
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = x
- expression state at time t = "not_expr"
- x is a variable
then arguments stack at time (t + 1) = [ ]
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = x
- expression state at time t = "not_expr"
- x is a variable
then Control Map at time (t + 1) = Control Map at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = function call with name: name and arguments: args
then Variables Map at time (t + 1) = Variables Map at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = function call with name: name and arguments: args
then stack at time (t + 1) = stack at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = function call with name: name and arguments: args
then Control Map at time (t + 1) = Control Map at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = function call with name: name and arguments: args
then Class Map at time (t + 1) = Class Map at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = c
- c is constant
then Variables Map at time (t + 1) = Variables Map at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = c
- c is constant
then stack at time (t + 1) = stack at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = c
- c is constant
then Control Map at time (t + 1) = Control Map at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = x
- x is a variable
then Variables Map at time (t + 1) = Variables Map at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = x
- x is a variable
then stack at time (t + 1) = stack at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = x
- x is a variable
then Control Map at time (t + 1) = Control Map at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = x
- x is a variable
then Class Map at time (t + 1) = Class Map at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = x
- x is a variable
then Python Object Store at time (t + 1) = Python Object Store at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j =
x = c
then "if" map at time (t + 1) = "if" map at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j =
x = c
then 'while stack' at time (t + 1) = 'while stack' at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j =
x = c
then Control Map at time (t + 1) = Control Map at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j =
x = c
then Class Map at time (t + 1) = Class Map at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j =
x = c - c is constant
then Variables Map at time (t + 1) = result of storing c at key: x in map: (Variables Map at time t)
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j =
x = c - c is constant
then the line at time (t + 1) = i + 1
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j =
x = c - c is constant
then the tab at time (t + 1) = j
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j =
x = c - c is constant
then stack at time (t + 1) = stack at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j =
x = c - c is constant
then expression state at time (t + 1) = "not_expr"
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j =
x = c - c is constant
then Python Object Store at time (t + 1) = Python Object Store at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j =
x = c - c is a variable
then Variables Map at time (t + 1) = result of storing (value at c in map (Variables Map at time t)) at key: x in map: (Variables Map at time t)
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j =
x = c - c is a variable
then the line at time (t + 1) = i + 1
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j =
x = c - c is a variable
then stack at time (t + 1) = stack at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j =
x = c - c is a variable
then expression state at time (t + 1) = "not_expr"
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j =
x = c - c is a variable
then Control Map at time (t + 1) = Control Map at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j =
x = c - c is a variable
then Python Object Store at time (t + 1) = Python Object Store at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = assign statement with target x and expression (function call with name: name and arguments: args)
- expression state at time t = "not_expr"
then the expression at time (t + 1) = function call with name: name and arguments: args
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = assign statement with target x and expression (function call with name: name and arguments: args)
- expression state at time t = "not_expr"
then expression state at time (t + 1) = "begin_expr"
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = assign statement with target x and expression (function call with name: name and arguments: args)
- expression state at time t = "not_expr"
then the line at time (t + 1) = i
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = assign statement with target x and expression (function call with name: name and arguments: args)
- expression state at time t = "not_expr"
then the tab at time (t + 1) = j
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = assign statement with target x and expression (function call with name: name and arguments: args)
- expression state at time t = "not_expr"
then Variables Map at time (t + 1) = Variables Map at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = assign statement with target x and expression (function call with name: name and arguments: args)
- expression state at time t = "not_expr"
then stack at time (t + 1) = stack at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = assign statement with target x and expression (function call with name: name and arguments: args)
- expression state at time t = "not_expr"
then Value Stack at time (t + 1) = [ ]
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = assign statement with target x and expression (function call with name: name and arguments: args)
- expression state at time t = "not_expr"
then parent stack at time (t + 1) = [ ]
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = assign statement with target x and expression (function call with name: name and arguments: args)
- expression state at time t = "not_expr"
then arguments stack at time (t + 1) = [ ]
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = assign statement with target x and expression (function call with name: name and arguments: args)
- expression state at time t = "not_expr"
then Control Map at time (t + 1) = Control Map at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = assign statement with target x and expression (function call with name: name and arguments: args)
- expression state at time t = "not_expr"
then Python Object Store at time (t + 1) = Python Object Store at time t
(link)if expression state at time t = "begin_expr", then the line at time (t + 1) = the line at time t
(link)if expression state at time t = "iterate_args", then the line at time (t + 1) = the line at time t
(link)if expression state at time t = "call_function_begin", then the line at time (t + 1) = the line at time t
(link)if the following are true:
- expression state at time t = "call_build_args"
- Parameters List at time t = [ var, frest ]
then the line at time (t + 1) = the line at time t
(link)if the following are true:
- expression state at time t = "call_build_args"
- Parameters List at time t = [ ]
then stack at time (t + 1) = [ program context with variables: (Variables Map at time t) and expression state: (expression state with parent stack: (parent stack at time t) arguments: (arguments stack at time t) values: (Value Stack at time t) line: (the line at time t) tab: (the tab at time t)) and control map: (Control Map at time t), stack at time t ]
(link)if the following are true:
- expression state at time t = "call_build_args"
- Parameters List at time t = [ ]
- the expression at time t = function call with name: name and arguments: args
- there is a function named name with parameters params at line line
then the line at time (t + 1) = line + 1
(link)if expression state at time t = "call_returned", then the line at time (t + 1) = the line at time t
(link)if expression state at time t = "return", then the line at time (t + 1) = the line at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = assign statement with target x and expression (function call with name: name and arguments: args)
- expression state at time t = "end_expr"
then Variables Map at time (t + 1) = result of storing (Return Value at time t) at key: x in map: (Variables Map at time t)
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = assign statement with target x and expression (function call with name: name and arguments: args)
- expression state at time t = "end_expr"
then the line at time (t + 1) = i + 1
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = assign statement with target x and expression (function call with name: name and arguments: args)
- expression state at time t = "end_expr"
then the tab at time (t + 1) = the tab at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = assign statement with target x and expression (function call with name: name and arguments: args)
- expression state at time t = "end_expr"
then stack at time (t + 1) = stack at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = assign statement with target x and expression (function call with name: name and arguments: args)
- expression state at time t = "end_expr"
then Python Object Store at time (t + 1) = Python Object Store at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = assign statement with target x and expression (function call with name: name and arguments: args)
- expression state at time t = "end_expr"
then Control Map at time (t + 1) = Control Map at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j =
if test: - expression state at time t = "not_expr"
then the expression at time (t + 1) = test
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j =
if test: - expression state at time t = "not_expr"
then expression state at time (t + 1) = "begin_expr"
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j =
if test: - expression state at time t = "not_expr"
then the line at time (t + 1) = i
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j =
if test: - expression state at time t = "not_expr"
then the tab at time (t + 1) = j
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j =
if test: - expression state at time t = "not_expr"
then Value Stack at time (t + 1) = [ ]
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j =
if test: - expression state at time t = "not_expr"
then parent stack at time (t + 1) = [ ]
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j =
if test: - expression state at time t = "not_expr"
then arguments stack at time (t + 1) = [ ]
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j =
if test: - expression state at time t = "not_expr"
then Python Object Store at time (t + 1) = Python Object Store at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j =
if test: - expression state at time t = "not_expr"
then Control Map at time (t + 1) = Control Map at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j =
if test:
then Variables Map at time (t + 1) = Variables Map at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j =
if test:
then stack at time (t + 1) = stack at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j =
if test:
then "if" map at time (t + 1) = "if" map at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j =
if test:
then 'while stack' at time (t + 1) = 'while stack' at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j =
if test:
then Class Map at time (t + 1) = Class Map at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j =
if test: - expression state at time t = "end_expr"
then Python Object Store at time (t + 1) = Python Object Store at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j =
if test: - expression state at time t = "end_expr"
- Return Value at time t = True
then the line at time (t + 1) = i + 1
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j =
if test: - expression state at time t = "end_expr"
- Return Value at time t = True
then the tab at time (t + 1) = j + 1
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j =
if test: - expression state at time t = "end_expr"
- Return Value at time t = True
then Control Map at time (t + 1) = result of storing (pair ("if", True)) at key: j in map: (Control Map at time t)
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j =
if test: - expression state at time t = "end_expr"
- Return Value at time t = True
then Variables Map at time (t + 1) = Variables Map at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j =
if test: - expression state at time t = "end_expr"
- Return Value at time t = False
then the line at time (t + 1) = i + 1
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j =
if test: - expression state at time t = "end_expr"
- Return Value at time t = False
then the tab at time (t + 1) = j
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j =
if test: - expression state at time t = "end_expr"
- Return Value at time t = False
then Control Map at time (t + 1) = result of storing (pair ("if", False)) at key: j in map: (Control Map at time t)
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j =
if test: - expression state at time t = "end_expr"
- Return Value at time t = False
then Variables Map at time (t + 1) = Variables Map at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j =
elif test: - expression state at time t = "not_expr"
then Python Object Store at time (t + 1) = Python Object Store at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j =
elif test: - expression state at time t = "not_expr"
then Control Map at time (t + 1) = Control Map at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j =
elif test: - value at j in map (Control Map at time t) = pair ("if", False)
- expression state at time t = "not_expr"
then the expression at time (t + 1) = test
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j =
elif test: - value at j in map (Control Map at time t) = pair ("if", False)
- expression state at time t = "not_expr"
then expression state at time (t + 1) = "begin_expr"
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j =
elif test: - value at j in map (Control Map at time t) = pair ("if", False)
- expression state at time t = "not_expr"
then the line at time (t + 1) = i
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j =
elif test: - value at j in map (Control Map at time t) = pair ("if", False)
- expression state at time t = "not_expr"
then the tab at time (t + 1) = j
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j =
elif test: - value at j in map (Control Map at time t) = pair ("if", False)
- expression state at time t = "not_expr"
then Value Stack at time (t + 1) = [ ]
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j =
elif test: - value at j in map (Control Map at time t) = pair ("if", False)
- expression state at time t = "not_expr"
then parent stack at time (t + 1) = [ ]
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j =
elif test: - value at j in map (Control Map at time t) = pair ("if", False)
- expression state at time t = "not_expr"
then arguments stack at time (t + 1) = [ ]
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j =
elif test: - value at j in map (Control Map at time t) = pair ("if", True)
- expression state at time t = "not_expr"
then the line at time (t + 1) = i + 1
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j =
elif test: - value at j in map (Control Map at time t) = pair ("if", True)
- expression state at time t = "not_expr"
then the tab at time (t + 1) = j
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j =
elif test: - expression state at time t = "end_expr"
then Python Object Store at time (t + 1) = Python Object Store at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j =
elif test: - expression state at time t = "end_expr"
- Return Value at time t = True
then the line at time (t + 1) = i + 1
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j =
elif test: - expression state at time t = "end_expr"
- Return Value at time t = True
then the tab at time (t + 1) = j + 1
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j =
elif test: - expression state at time t = "end_expr"
- Return Value at time t = True
then Control Map at time (t + 1) = result of storing (pair ("if", True)) at key: j in map: (Control Map at time t)
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j =
elif test: - expression state at time t = "end_expr"
- Return Value at time t = True
then Variables Map at time (t + 1) = Variables Map at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j =
elif test: - expression state at time t = "end_expr"
- Return Value at time t = False
then the line at time (t + 1) = i + 1
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j =
elif test: - expression state at time t = "end_expr"
- Return Value at time t = False
then the tab at time (t + 1) = j
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j =
elif test: - expression state at time t = "end_expr"
- Return Value at time t = False
then Control Map at time (t + 1) = Control Map at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j =
elif test: - expression state at time t = "end_expr"
- Return Value at time t = False
then Variables Map at time (t + 1) = Variables Map at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j =
elif test:
then Variables Map at time (t + 1) = Variables Map at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j =
elif test:
then stack at time (t + 1) = stack at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j =
elif test:
then "if" map at time (t + 1) = "if" map at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j =
elif test:
then 'while stack' at time (t + 1) = 'while stack' at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j =
elif test:
then Class Map at time (t + 1) = Class Map at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j =
else: - value at j in map (Control Map at time t) = pair ("if", False)
then the line at time (t + 1) = i + 1
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j =
else: - value at j in map (Control Map at time t) = pair ("if", False)
then the tab at time (t + 1) = j + 1
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j =
else: - value at j in map (Control Map at time t) = pair ("if", True)
then the line at time (t + 1) = i + 1
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j =
else: - value at j in map (Control Map at time t) = pair ("if", True)
then the tab at time (t + 1) = j
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j =
else:
then Variables Map at time (t + 1) = Variables Map at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j =
else:
then stack at time (t + 1) = stack at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j =
else:
then "if" map at time (t + 1) = "if" map at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j =
else:
then 'while stack' at time (t + 1) = 'while stack' at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j =
else:
then Python Object Store at time (t + 1) = Python Object Store at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j =
else:
then Control Map at time (t + 1) = Control Map at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j =
else:
then Class Map at time (t + 1) = Class Map at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j =
else:
then expression state at time (t + 1) = expression state at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab k = s
- k < j
- value at (j - 1) in map (Control Map at time t) = pair ("if", if_value)
then the line at time (t + 1) = i
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab k = s
- k < j
- value at (j - 1) in map (Control Map at time t) = pair ("if", if_value)
then the tab at time (t + 1) = j - 1
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab k = s
- k < j
- value at (j - 1) in map (Control Map at time t) = pair ("if", if_value)
then Variables Map at time (t + 1) = Variables Map at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab k = s
- k < j
- value at (j - 1) in map (Control Map at time t) = pair ("if", if_value)
then stack at time (t + 1) = stack at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab k = s
- k < j
- value at (j - 1) in map (Control Map at time t) = pair ("if", if_value)
then Python Object Store at time (t + 1) = Python Object Store at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab k = s
- k < j
- value at (j - 1) in map (Control Map at time t) = pair ("if", if_value)
then Class Map at time (t + 1) = Class Map at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab k = s
- k < j
- value at (j - 1) in map (Control Map at time t) = pair ("if", if_value)
then Control Map at time (t + 1) = Control Map at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = "while" statement with condition (function call with name: name and arguments: args)
- expression state at time t = "not_expr"
then the expression at time (t + 1) = function call with name: name and arguments: args
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = "while" statement with condition (function call with name: name and arguments: args)
- expression state at time t = "not_expr"
then expression state at time (t + 1) = "begin_expr"
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = "while" statement with condition (function call with name: name and arguments: args)
- expression state at time t = "not_expr"
then the line at time (t + 1) = i
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = "while" statement with condition (function call with name: name and arguments: args)
- expression state at time t = "not_expr"
then the tab at time (t + 1) = j
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = "while" statement with condition (function call with name: name and arguments: args)
- expression state at time t = "not_expr"
then Value Stack at time (t + 1) = [ ]
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = "while" statement with condition (function call with name: name and arguments: args)
- expression state at time t = "not_expr"
then parent stack at time (t + 1) = [ ]
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = "while" statement with condition (function call with name: name and arguments: args)
- expression state at time t = "not_expr"
then arguments stack at time (t + 1) = [ ]
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = "while" statement with condition (function call with name: name and arguments: args)
- expression state at time t = "not_expr"
then Python Object Store at time (t + 1) = Python Object Store at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = "while" statement with condition (function call with name: name and arguments: args)
- expression state at time t = "not_expr"
then Control Map at time (t + 1) = Control Map at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = "while" statement with condition (function call with name: name and arguments: args)
then Variables Map at time (t + 1) = Variables Map at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = "while" statement with condition (function call with name: name and arguments: args)
then stack at time (t + 1) = stack at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = "while" statement with condition (function call with name: name and arguments: args)
then "if" map at time (t + 1) = "if" map at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = "while" statement with condition (function call with name: name and arguments: args)
then 'while stack' at time (t + 1) = 'while stack' at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = "while" statement with condition (function call with name: name and arguments: args)
then Class Map at time (t + 1) = Class Map at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = "while" statement with condition (function call with name: name and arguments: args)
- expression state at time t = "end_expr"
then the line at time (t + 1) = i + 1
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = "while" statement with condition (function call with name: name and arguments: args)
- expression state at time t = "end_expr"
then "if" map at time (t + 1) = "if" map at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = "while" statement with condition (function call with name: name and arguments: args)
- expression state at time t = "end_expr"
then Python Object Store at time (t + 1) = Python Object Store at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = "while" statement with condition (function call with name: name and arguments: args)
- expression state at time t = "end_expr"
- Return Value at time t = True
then the tab at time (t + 1) = j + 1
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = "while" statement with condition (function call with name: name and arguments: args)
- expression state at time t = "end_expr"
- Return Value at time t = True
then Control Map at time (t + 1) = result of storing (pair ("while", i)) at key: j in map: (Control Map at time t)
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = "while" statement with condition (function call with name: name and arguments: args)
- expression state at time t = "end_expr"
- Return Value at time t = False
then the tab at time (t + 1) = j
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = "while" statement with condition (function call with name: name and arguments: args)
- expression state at time t = "end_expr"
- Return Value at time t = False
then Control Map at time (t + 1) = Control Map at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j =
break
then "break" state at (t + 1) = "breaking"
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j =
break
then the line at time (t + 1) = i
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j =
break
then the tab at time (t + 1) = j
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j =
break
then Variables Map at time (t + 1) = Variables Map at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j =
break
then stack at time (t + 1) = stack at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j =
break
then "if" map at time (t + 1) = "if" map at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j =
break
then Python Object Store at time (t + 1) = Python Object Store at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j =
break
then Control Map at time (t + 1) = Control Map at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j =
break
then Class Map at time (t + 1) = Class Map at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j =
continue
then "continue" state at (t + 1) = "continuing"
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j =
continue
then the line at time (t + 1) = i
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j =
continue
then the tab at time (t + 1) = j
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j =
continue
then Variables Map at time (t + 1) = Variables Map at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j =
continue
then stack at time (t + 1) = stack at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j =
continue
then "if" map at time (t + 1) = "if" map at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j =
continue
then 'while stack' at time (t + 1) = 'while stack' at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j =
continue
then expression state at time (t + 1) = "not_expr"
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j =
continue
then Python Object Store at time (t + 1) = Python Object Store at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j =
continue
then Control Map at time (t + 1) = Control Map at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j =
continue
then Class Map at time (t + 1) = Class Map at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = function definition where name: name and parameters: params
then there is a function named name with parameters params at line line
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = function definition where name: name and parameters: params
then Variables Map at time (t + 1) = Variables Map at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = function definition where name: name and parameters: params
then the line at time (t + 1) = i + 1
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = function definition where name: name and parameters: params
then the tab at time (t + 1) = j
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = function definition where name: name and parameters: params
then stack at time (t + 1) = stack at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = function definition where name: name and parameters: params
then "if" map at time (t + 1) = "if" map at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = function definition where name: name and parameters: params
then 'while stack' at time (t + 1) = 'while stack' at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = function definition where name: name and parameters: params
then Python Object Store at time (t + 1) = Python Object Store at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = function definition where name: name and parameters: params
then Control Map at time (t + 1) = Control Map at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = function definition where name: name and parameters: params
then Class Map at time (t + 1) = Class Map at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j =
return v
then "if" map at time (t + 1) = "if" map at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j =
return v
then 'while stack' at time (t + 1) = 'while stack' at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j =
return v
then Class Map at time (t + 1) = Class Map at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j =
return c - c is constant
then Python Object Store at time (t + 1) = Python Object Store at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j =
return c - c is a variable
then Python Object Store at time (t + 1) = Python Object Store at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j =
return rex - expression state at time t = "not_expr"
then the expression at time (t + 1) = rex
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j =
return rex - expression state at time t = "not_expr"
then expression state at time (t + 1) = "begin_expr"
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j =
return rex - expression state at time t = "not_expr"
then the line at time (t + 1) = i
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j =
return rex - expression state at time t = "not_expr"
then the tab at time (t + 1) = j
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j =
return rex - expression state at time t = "not_expr"
then Variables Map at time (t + 1) = Variables Map at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j =
return rex - expression state at time t = "not_expr"
then stack at time (t + 1) = stack at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j =
return rex - expression state at time t = "not_expr"
then Value Stack at time (t + 1) = [ ]
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j =
return rex - expression state at time t = "not_expr"
then parent stack at time (t + 1) = [ ]
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j =
return rex - expression state at time t = "not_expr"
then arguments stack at time (t + 1) = [ ]
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j =
return rex - expression state at time t = "not_expr"
then Python Object Store at time (t + 1) = Python Object Store at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j =
return rex - expression state at time t = "not_expr"
then Control Map at time (t + 1) = Control Map at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j =
return rex - stack at time t = [ program context with variables: varis and expression state: (expression state with parent stack: parent_stack arguments: arg_stack values: value_stack line: line tab: tab) and control map: control_map, rest ]
- expression state at time t = "end_expr"
then Variables Map at time (t + 1) = varis
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j =
return rex - stack at time t = [ program context with variables: varis and expression state: (expression state with parent stack: parent_stack arguments: arg_stack values: value_stack line: line tab: tab) and control map: control_map, rest ]
- expression state at time t = "end_expr"
then the line at time (t + 1) = line
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j =
return rex - stack at time t = [ program context with variables: varis and expression state: (expression state with parent stack: parent_stack arguments: arg_stack values: value_stack line: line tab: tab) and control map: control_map, rest ]
- expression state at time t = "end_expr"
then the tab at time (t + 1) = tab
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j =
return rex - stack at time t = [ program context with variables: varis and expression state: (expression state with parent stack: parent_stack arguments: arg_stack values: value_stack line: line tab: tab) and control map: control_map, rest ]
- expression state at time t = "end_expr"
then expression state at time (t + 1) = "call_returned"
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j =
return rex - stack at time t = [ program context with variables: varis and expression state: (expression state with parent stack: parent_stack arguments: arg_stack values: value_stack line: line tab: tab) and control map: control_map, rest ]
- expression state at time t = "end_expr"
then parent stack at time (t + 1) = parent_stack
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j =
return rex - stack at time t = [ program context with variables: varis and expression state: (expression state with parent stack: parent_stack arguments: arg_stack values: value_stack line: line tab: tab) and control map: control_map, rest ]
- expression state at time t = "end_expr"
then Control Map at time (t + 1) = control_map
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j =
return rex - stack at time t = [ program context with variables: varis and expression state: (expression state with parent stack: parent_stack arguments: arg_stack values: value_stack line: line tab: tab) and control map: control_map, rest ]
- expression state at time t = "end_expr"
then stack at time (t + 1) = rest
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j =
return rex - stack at time t = [ program context with variables: varis and expression state: (expression state with parent stack: parent_stack arguments: arg_stack values: value_stack line: line tab: tab) and control map: control_map, rest ]
- expression state at time t = "end_expr"
then Value Stack at time (t + 1) = value_stack
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j =
return rex - stack at time t = [ program context with variables: varis and expression state: (expression state with parent stack: parent_stack arguments: arg_stack values: value_stack line: line tab: tab) and control map: control_map, rest ]
- expression state at time t = "end_expr"
then arguments stack at time (t + 1) = arg_stack
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j =
return rex - stack at time t = [ program context with variables: varis and expression state: (expression state with parent stack: parent_stack arguments: arg_stack values: value_stack line: line tab: tab) and control map: control_map, rest ]
- expression state at time t = "end_expr"
then Return Value at time (t + 1) = Return Value at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j =
return rex - expression state at time t = "end_expr"
then Python Object Store at time (t + 1) = Python Object Store at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = return (function call with name: name and arguments: args)
- expression state at time t = "end_expr"
then Python Object Store at time (t + 1) = Python Object Store at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = Python list elements
- expression state at time t = "not_expr"
then the expression at time (t + 1) = Python list elements
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = Python list elements
- expression state at time t = "not_expr"
then expression state at time (t + 1) = "begin_expr"
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = Python list elements
- expression state at time t = "not_expr"
then the line at time (t + 1) = i
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = Python list elements
- expression state at time t = "not_expr"
then the tab at time (t + 1) = j
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = Python list elements
- expression state at time t = "not_expr"
then Value Stack at time (t + 1) = [ ]
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = Python list elements
- expression state at time t = "not_expr"
then parent stack at time (t + 1) = [ ]
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = Python list elements
- expression state at time t = "not_expr"
then arguments stack at time (t + 1) = [ ]
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = Python list elements
- expression state at time t = "not_expr"
then Python Object Store at time (t + 1) = Python Object Store at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = Python list elements
- expression state at time t = "not_expr"
then Control Map at time (t + 1) = Control Map at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = Python list elements
then Variables Map at time (t + 1) = Variables Map at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = Python list elements
then stack at time (t + 1) = stack at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = Python list elements
then "if" map at time (t + 1) = "if" map at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = Python list elements
then 'while stack' at time (t + 1) = 'while stack' at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = Python list elements
then Class Map at time (t + 1) = Class Map at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = assign statement with target x and expression (Python list elements)
- expression state at time t = "not_expr"
then the expression at time (t + 1) = Python list elements
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = assign statement with target x and expression (Python list elements)
- expression state at time t = "not_expr"
then expression state at time (t + 1) = "begin_expr"
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = assign statement with target x and expression (Python list elements)
- expression state at time t = "not_expr"
then the line at time (t + 1) = i
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = assign statement with target x and expression (Python list elements)
- expression state at time t = "not_expr"
then the tab at time (t + 1) = j
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = assign statement with target x and expression (Python list elements)
- expression state at time t = "not_expr"
then Variables Map at time (t + 1) = Variables Map at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = assign statement with target x and expression (Python list elements)
- expression state at time t = "not_expr"
then stack at time (t + 1) = stack at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = assign statement with target x and expression (Python list elements)
- expression state at time t = "not_expr"
then Value Stack at time (t + 1) = [ ]
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = assign statement with target x and expression (Python list elements)
- expression state at time t = "not_expr"
then parent stack at time (t + 1) = [ ]
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = assign statement with target x and expression (Python list elements)
- expression state at time t = "not_expr"
then arguments stack at time (t + 1) = [ ]
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = assign statement with target x and expression (Python list elements)
- expression state at time t = "not_expr"
then Python Object Store at time (t + 1) = Python Object Store at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = assign statement with target x and expression (Python list elements)
- expression state at time t = "not_expr"
then Control Map at time (t + 1) = Control Map at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = assign statement with target x and expression (Python list elements)
- expression state at time t = "end_expr"
then Variables Map at time (t + 1) = result of storing (Return Value at time t) at key: x in map: (Variables Map at time t)
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = assign statement with target x and expression (Python list elements)
- expression state at time t = "end_expr"
then the line at time (t + 1) = i + 1
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = assign statement with target x and expression (Python list elements)
- expression state at time t = "end_expr"
then the tab at time (t + 1) = the tab at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = assign statement with target x and expression (Python list elements)
- expression state at time t = "end_expr"
then stack at time (t + 1) = stack at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = assign statement with target x and expression (Python list elements)
- expression state at time t = "end_expr"
then Python Object Store at time (t + 1) = Python Object Store at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = assign statement with target x and expression (Python list elements)
- expression state at time t = "end_expr"
then Control Map at time (t + 1) = Control Map at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = obj_name.method_name(args)
- expression state at time t = "not_expr"
then the expression at time (t + 1) = obj_name.method_name(args)
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = obj_name.method_name(args)
- expression state at time t = "not_expr"
then expression state at time (t + 1) = "begin_expr"
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = obj_name.method_name(args)
- expression state at time t = "not_expr"
then the line at time (t + 1) = i
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = obj_name.method_name(args)
- expression state at time t = "not_expr"
then the tab at time (t + 1) = j
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = obj_name.method_name(args)
- expression state at time t = "not_expr"
then Value Stack at time (t + 1) = [ ]
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = obj_name.method_name(args)
- expression state at time t = "not_expr"
then parent stack at time (t + 1) = [ ]
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = obj_name.method_name(args)
- expression state at time t = "not_expr"
then arguments stack at time (t + 1) = [ ]
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = obj_name.method_name(args)
- expression state at time t = "not_expr"
then Python Object Store at time (t + 1) = Python Object Store at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = obj_name.method_name(args)
- expression state at time t = "not_expr"
then Control Map at time (t + 1) = Control Map at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = obj_name.method_name(args)
- expression state at time t = "not_expr"
then Variables Map at time (t + 1) = Variables Map at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = obj_name.method_name(args)
- expression state at time t = "not_expr"
then stack at time (t + 1) = stack at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = obj_name.method_name(args)
- expression state at time t = "not_expr"
then "if" map at time (t + 1) = "if" map at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = obj_name.method_name(args)
- expression state at time t = "not_expr"
then 'while stack' at time (t + 1) = 'while stack' at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = obj_name.method_name(args)
then Class Map at time (t + 1) = Class Map at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = assign statement with target target and expression (obj_name.method_name(args))
- expression state at time t = "not_expr"
then the expression at time (t + 1) = obj_name.method_name(args)
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = assign statement with target target and expression (obj_name.method_name(args))
- expression state at time t = "not_expr"
then expression state at time (t + 1) = "begin_expr"
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = assign statement with target target and expression (obj_name.method_name(args))
- expression state at time t = "not_expr"
then the line at time (t + 1) = i
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = assign statement with target target and expression (obj_name.method_name(args))
- expression state at time t = "not_expr"
then the tab at time (t + 1) = j
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = assign statement with target target and expression (obj_name.method_name(args))
- expression state at time t = "not_expr"
then Value Stack at time (t + 1) = [ ]
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = assign statement with target target and expression (obj_name.method_name(args))
- expression state at time t = "not_expr"
then parent stack at time (t + 1) = [ ]
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = assign statement with target target and expression (obj_name.method_name(args))
- expression state at time t = "not_expr"
then arguments stack at time (t + 1) = [ ]
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = assign statement with target target and expression (obj_name.method_name(args))
- expression state at time t = "not_expr"
then Python Object Store at time (t + 1) = Python Object Store at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = assign statement with target target and expression (obj_name.method_name(args))
- expression state at time t = "not_expr"
then Control Map at time (t + 1) = Control Map at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = assign statement with target target and expression (obj_name.method_name(args))
- expression state at time t = "not_expr"
then Variables Map at time (t + 1) = Variables Map at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = assign statement with target target and expression (obj_name.method_name(args))
- expression state at time t = "not_expr"
then stack at time (t + 1) = stack at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = assign statement with target target and expression (obj_name.method_name(args))
- expression state at time t = "not_expr"
then "if" map at time (t + 1) = "if" map at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = assign statement with target target and expression (obj_name.method_name(args))
- expression state at time t = "not_expr"
then 'while stack' at time (t + 1) = 'while stack' at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = obj."append"(el)
then stack at time (t + 1) = stack at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = obj."append"(el)
then "if" map at time (t + 1) = "if" map at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = obj."append"(el)
then 'while stack' at time (t + 1) = 'while stack' at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = obj."append"(el)
then Variables Map at time (t + 1) = Variables Map at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = function call with name: "__getitem__" and arguments: args
- expression state at time t = "not_expr"
then Python Object Store at time (t + 1) = Python Object Store at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = function call with name: "len" and arguments: args
- expression state at time t = "not_expr"
then Python Object Store at time (t + 1) = Python Object Store at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = function call with name: "__contains__" and arguments: args
- expression state at time t = "not_expr"
then Python Object Store at time (t + 1) = Python Object Store at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = Python dictionary entries
- expression state at time t = "not_expr"
then the expression at time (t + 1) = Python dictionary entries
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = Python dictionary entries
- expression state at time t = "not_expr"
then expression state at time (t + 1) = "begin_expr"
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = Python dictionary entries
- expression state at time t = "not_expr"
then the line at time (t + 1) = i
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = Python dictionary entries
- expression state at time t = "not_expr"
then the tab at time (t + 1) = j
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = Python dictionary entries
- expression state at time t = "not_expr"
then Value Stack at time (t + 1) = [ ]
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = Python dictionary entries
- expression state at time t = "not_expr"
then parent stack at time (t + 1) = [ ]
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = Python dictionary entries
- expression state at time t = "not_expr"
then arguments stack at time (t + 1) = [ ]
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = Python dictionary entries
- expression state at time t = "not_expr"
then Python Object Store at time (t + 1) = Python Object Store at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = Python dictionary entries
- expression state at time t = "not_expr"
then Control Map at time (t + 1) = Control Map at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = assign statement with target x and expression (Python dictionary elements)
- expression state at time t = "not_expr"
then the expression at time (t + 1) = Python dictionary elements
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = assign statement with target x and expression (Python dictionary elements)
- expression state at time t = "not_expr"
then expression state at time (t + 1) = "begin_expr"
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = assign statement with target x and expression (Python dictionary elements)
- expression state at time t = "not_expr"
then the line at time (t + 1) = i
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = assign statement with target x and expression (Python dictionary elements)
- expression state at time t = "not_expr"
then the tab at time (t + 1) = j
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = assign statement with target x and expression (Python dictionary elements)
- expression state at time t = "not_expr"
then Variables Map at time (t + 1) = Variables Map at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = assign statement with target x and expression (Python dictionary elements)
- expression state at time t = "not_expr"
then stack at time (t + 1) = stack at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = assign statement with target x and expression (Python dictionary elements)
- expression state at time t = "not_expr"
then Value Stack at time (t + 1) = [ ]
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = assign statement with target x and expression (Python dictionary elements)
- expression state at time t = "not_expr"
then parent stack at time (t + 1) = [ ]
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = assign statement with target x and expression (Python dictionary elements)
- expression state at time t = "not_expr"
then arguments stack at time (t + 1) = [ ]
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = assign statement with target x and expression (Python dictionary elements)
- expression state at time t = "not_expr"
then Python Object Store at time (t + 1) = Python Object Store at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = assign statement with target x and expression (Python dictionary elements)
- expression state at time t = "end_expr"
then Variables Map at time (t + 1) = result of storing (Return Value at time t) at key: x in map: (Variables Map at time t)
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = assign statement with target x and expression (Python dictionary elements)
- expression state at time t = "end_expr"
then the line at time (t + 1) = i + 1
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = assign statement with target x and expression (Python dictionary elements)
- expression state at time t = "end_expr"
then the tab at time (t + 1) = the tab at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = assign statement with target x and expression (Python dictionary elements)
- expression state at time t = "end_expr"
then stack at time (t + 1) = stack at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = assign statement with target x and expression (Python dictionary elements)
- expression state at time t = "end_expr"
then Python Object Store at time (t + 1) = Python Object Store at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = function call with name: "__setitem__" and arguments: args
- expression state at time t = "not_expr"
then Python Object Store at time (t + 1) = Python Object Store at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = a class named name with bases: bases
then Class Map at time (t + 1) = result of storing [ entry "bases": bases, [ entry "methods": [ ], [ entry "line": i, [ ] ] ] ] at key: name in map: (Class Map at time t)
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = a class named name with bases: bases
then Control Map at time (t + 1) = result of storing (pair ("class", name)) at key: j in map: (Control Map at time t)
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = a class named name with bases: bases
then the line at time (t + 1) = i + 1
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = a class named name with bases: bases
then the tab at time (t + 1) = j + 1
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = a class named name with bases: bases
then Variables Map at time (t + 1) = Variables Map at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = a class named name with bases: bases
then stack at time (t + 1) = stack at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = a class named name with bases: bases
then "if" map at time (t + 1) = "if" map at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = a class named name with bases: bases
then 'while stack' at time (t + 1) = 'while stack' at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = a class named name with bases: bases
then Python Object Store at time (t + 1) = Python Object Store at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab k = s
- k < j
- value at (j - 1) in map (Control Map at time t) = pair ("class", class_name)
then the line at time (t + 1) = the line at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab k = s
- k < j
- value at (j - 1) in map (Control Map at time t) = pair ("class", class_name)
then the tab at time (t + 1) = j - 1
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab k = s
- k < j
- value at (j - 1) in map (Control Map at time t) = pair ("class", class_name)
then expression state at time t = "not_expr"
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab k = s
- k < j
- value at (j - 1) in map (Control Map at time t) = pair ("class", class_name)
then Control Map at time (t + 1) = Control Map at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab k = s
- k < j
- value at (j - 1) in map (Control Map at time t) = pair ("class", class_name)
then Variables Map at time (t + 1) = Variables Map at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab k = s
- k < j
- value at (j - 1) in map (Control Map at time t) = pair ("class", class_name)
then stack at time (t + 1) = stack at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab k = s
- k < j
- value at (j - 1) in map (Control Map at time t) = pair ("class", class_name)
then "if" map at time (t + 1) = "if" map at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab k = s
- k < j
- value at (j - 1) in map (Control Map at time t) = pair ("class", class_name)
then expression state at time (t + 1) = expression state at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab k = s
- k < j
- value at (j - 1) in map (Control Map at time t) = pair ("class", class_name)
then Python Object Store at time (t + 1) = Python Object Store at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab k = s
- k < j
- value at (j - 1) in map (Control Map at time t) = pair ("class", class_name)
then 'while stack' at time (t + 1) = 'while stack' at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab k = s
- k < j
- value at (j - 1) in map (Control Map at time t) = pair ("class", class_name)
then Class Map at time (t + 1) = Class Map at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = a method named method_name with parameters params
then the line at time (t + 1) = i + 1
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = a method named method_name with parameters params
then the tab at time (t + 1) = j
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = a method named method_name with parameters params
then Variables Map at time (t + 1) = Variables Map at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = a method named method_name with parameters params
then stack at time (t + 1) = stack at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = a method named method_name with parameters params
then "if" map at time (t + 1) = "if" map at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = a method named method_name with parameters params
then 'while stack' at time (t + 1) = 'while stack' at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = a method named method_name with parameters params
then Python Object Store at time (t + 1) = Python Object Store at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = a method named method_name with parameters params
then Control Map at time (t + 1) = Control Map at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = a method named method_name with parameters params
- value at class_name in map (Class Map at time t) = class_map
- value at "methods" in map class_map = methods_map
then Class Map at time (t + 1) = result of storing (result of storing (result of storing [ entry "params": params, [ entry "line": i, [ ] ] ] at key: method_name in map: methods_map) at key: "methods" in map: class_map) at key: class_name in map: (Class Map at time t)
(link)if the following are true:
- expression state at time t = "call_build_args"
- Parameters List at time t = [ ]
- the expression at time t = obj_name.method_name(args)
- value at obj_name in map (Variables Map at time t) = Python reference index
- the element at index index of stack (Python Object Store at time t) = Python object: [ entry "__class_name__": class_name, e_rest ]
- line number of method method_name of class class_name in (Class Map at time t) = line
then the line at time (t + 1) = line + 1
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = obj.mn(args)
- expression state at time t = "end_expr"
then the line at time (t + 1) = i + 1
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = obj.mn(args)
- expression state at time t = "end_expr"
then expression state at time (t + 1) = "not_expr"
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = obj.mn(args)
- expression state at time t = "end_expr"
then the tab at time (t + 1) = the tab at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = obj.mn(args)
- expression state at time t = "end_expr"
then Variables Map at time (t + 1) = Variables Map at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = obj.mn(args)
- expression state at time t = "end_expr"
then stack at time (t + 1) = stack at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = obj.mn(args)
- expression state at time t = "end_expr"
then Python Object Store at time (t + 1) = Python Object Store at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = obj.mn(args)
- expression state at time t = "end_expr"
then Control Map at time (t + 1) = Control Map at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = obj.mn(args)
- expression state at time t = "end_expr"
then Class Map at time (t + 1) = Class Map at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = assign statement with target x and expression (obj_name.method_name(args))
- expression state at time t = "end_expr"
then Variables Map at time (t + 1) = result of storing (Return Value at time t) at key: x in map: (Variables Map at time t)
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = assign statement with target x and expression (obj_name.method_name(args))
- expression state at time t = "end_expr"
then the line at time (t + 1) = i + 1
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = assign statement with target x and expression (obj_name.method_name(args))
- expression state at time t = "end_expr"
then the tab at time (t + 1) = the tab at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = assign statement with target x and expression (obj_name.method_name(args))
- expression state at time t = "end_expr"
then stack at time (t + 1) = stack at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = assign statement with target x and expression (obj_name.method_name(args))
- expression state at time t = "end_expr"
then Python Object Store at time (t + 1) = Python Object Store at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = assign statement with target x and expression (obj_name.method_name(args))
- expression state at time t = "end_expr"
then Control Map at time (t + 1) = Control Map at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = assign statement with target x and expression (Python constructor with name: name and arguments: args)
- expression state at time t = "not_expr"
then the expression at time (t + 1) = Python constructor with name: name and arguments: args
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = assign statement with target x and expression (Python constructor with name: name and arguments: args)
- expression state at time t = "not_expr"
then expression state at time (t + 1) = "begin_expr"
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = assign statement with target x and expression (Python constructor with name: name and arguments: args)
- expression state at time t = "not_expr"
then the line at time (t + 1) = i
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = assign statement with target x and expression (Python constructor with name: name and arguments: args)
- expression state at time t = "not_expr"
then the tab at time (t + 1) = j
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = assign statement with target x and expression (Python constructor with name: name and arguments: args)
- expression state at time t = "not_expr"
then Variables Map at time (t + 1) = Variables Map at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = assign statement with target x and expression (Python constructor with name: name and arguments: args)
- expression state at time t = "not_expr"
then stack at time (t + 1) = stack at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = assign statement with target x and expression (Python constructor with name: name and arguments: args)
- expression state at time t = "not_expr"
then Python Object Store at time (t + 1) = Python Object Store at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = assign statement with target x and expression (Python constructor with name: name and arguments: args)
- expression state at time t = "not_expr"
then Control Map at time (t + 1) = Control Map at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = assign statement with target x and expression (Python constructor with name: name and arguments: args)
- expression state at time t = "not_expr"
then Value Stack at time (t + 1) = [ ]
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = assign statement with target x and expression (Python constructor with name: name and arguments: args)
- expression state at time t = "not_expr"
then parent stack at time (t + 1) = [ ]
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = assign statement with target x and expression (Python constructor with name: name and arguments: args)
- expression state at time t = "not_expr"
then arguments stack at time (t + 1) = [ ]
(link)if the following are true:
- expression state at time t = "call_build_args"
- Parameters List at time t = [ ]
- the expression at time t = Python constructor with name: class_name and arguments: args
- line number of method "__init__" of class class_name in (Class Map at time t) = line
then the line at time (t + 1) = line + 1
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = assign statement with target x and expression (Python constructor with name: class_name and arguments: args)
- expression state at time t = "end_expr"
then Variables Map at time (t + 1) = result of storing (Return Value at time t) at key: x in map: (Variables Map at time t)
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = assign statement with target x and expression (Python constructor with name: class_name and arguments: args)
- expression state at time t = "end_expr"
then the line at time (t + 1) = i + 1
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = assign statement with target x and expression (Python constructor with name: class_name and arguments: args)
- expression state at time t = "end_expr"
then the tab at time (t + 1) = the tab at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = assign statement with target x and expression (Python constructor with name: class_name and arguments: args)
- expression state at time t = "end_expr"
then stack at time (t + 1) = stack at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = assign statement with target x and expression (Python constructor with name: class_name and arguments: args)
- expression state at time t = "end_expr"
then Python Object Store at time (t + 1) = Python Object Store at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = assign statement with target x and expression (Python constructor with name: class_name and arguments: args)
- expression state at time t = "end_expr"
then Control Map at time (t + 1) = Control Map at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = assign statement with target x and expression (obj.attr)
- expression state at time t = "not_expr"
then the expression at time (t + 1) = obj.attr
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = assign statement with target x and expression (obj.attr)
- expression state at time t = "not_expr"
then expression state at time (t + 1) = "begin_expr"
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = assign statement with target x and expression (obj.attr)
- expression state at time t = "not_expr"
then the line at time (t + 1) = i
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = assign statement with target x and expression (obj.attr)
- expression state at time t = "not_expr"
then the tab at time (t + 1) = j
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = assign statement with target x and expression (obj.attr)
- expression state at time t = "not_expr"
then Variables Map at time (t + 1) = Variables Map at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = assign statement with target x and expression (obj.attr)
- expression state at time t = "not_expr"
then stack at time (t + 1) = stack at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = assign statement with target x and expression (obj.attr)
- expression state at time t = "not_expr"
then Value Stack at time (t + 1) = [ ]
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = assign statement with target x and expression (obj.attr)
- expression state at time t = "not_expr"
then parent stack at time (t + 1) = [ ]
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = assign statement with target x and expression (obj.attr)
- expression state at time t = "not_expr"
then arguments stack at time (t + 1) = [ ]
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = assign statement with target x and expression (obj.attr)
- expression state at time t = "not_expr"
then Python Object Store at time (t + 1) = Python Object Store at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = assign statement with target x and expression (obj.attr)
- expression state at time t = "not_expr"
then Control Map at time (t + 1) = Control Map at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = assign statement with target x and expression (obj.attr)
- expression state at time t = "end_expr"
then Variables Map at time (t + 1) = result of storing (Return Value at time t) at key: x in map: (Variables Map at time t)
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = assign statement with target x and expression (obj.attr)
- expression state at time t = "end_expr"
then the line at time (t + 1) = i + 1
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = assign statement with target x and expression (obj.attr)
- expression state at time t = "end_expr"
then the tab at time (t + 1) = the tab at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = assign statement with target x and expression (obj.attr)
- expression state at time t = "end_expr"
then stack at time (t + 1) = stack at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = assign statement with target x and expression (obj.attr)
- expression state at time t = "end_expr"
then Python Object Store at time (t + 1) = Python Object Store at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = assign statement with target x and expression (obj.attr)
- expression state at time t = "end_expr"
then Control Map at time (t + 1) = Control Map at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = obj.key = value
- expression state at time t = "not_expr"
then the expression at time (t + 1) = obj.key = value
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = obj.key = value
- expression state at time t = "not_expr"
then expression state at time (t + 1) = "begin_expr"
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = obj.key = value
- expression state at time t = "not_expr"
then the line at time (t + 1) = i
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = obj.key = value
- expression state at time t = "not_expr"
then the tab at time (t + 1) = j
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = obj.key = value
- expression state at time t = "not_expr"
then Value Stack at time (t + 1) = [ ]
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = obj.key = value
- expression state at time t = "not_expr"
then parent stack at time (t + 1) = [ ]
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = obj.key = value
- expression state at time t = "not_expr"
then arguments stack at time (t + 1) = [ ]
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = obj.key = value
- expression state at time t = "not_expr"
then Python Object Store at time (t + 1) = Python Object Store at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = obj.key = value
- expression state at time t = "not_expr"
then Control Map at time (t + 1) = Control Map at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = obj.key = value
then Variables Map at time (t + 1) = Variables Map at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = obj.key = value
then stack at time (t + 1) = stack at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = obj.key = value
then "if" map at time (t + 1) = "if" map at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = obj.key = value
then 'while stack' at time (t + 1) = 'while stack' at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = obj.key = value
then Class Map at time (t + 1) = Class Map at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = x.y = z
- expression state at time t = "end_expr"
then the line at time (t + 1) = i + 1
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = x.y = z
- expression state at time t = "end_expr"
then the tab at time (t + 1) = the tab at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = x.y = z
- expression state at time t = "end_expr"
then stack at time (t + 1) = stack at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = x.y = z
- expression state at time t = "end_expr"
then Variables Map at time (t + 1) = Variables Map at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = x.y = z
- expression state at time t = "end_expr"
then "if" map at time (t + 1) = "if" map at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = x.y = z
- expression state at time t = "end_expr"
then 'while stack' at time (t + 1) = 'while stack' at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = x.y = z
- expression state at time t = "end_expr"
then Python Object Store at time (t + 1) = Python Object Store at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = x.y = z
- expression state at time t = "end_expr"
then Control Map at time (t + 1) = Control Map at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = x.y = z
- expression state at time t = "end_expr"
then Class Map at time (t + 1) = Class Map at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab k = s
- k < j
- value at (j - 1) in map (Control Map at time t) = pair ("method", method_name)
then "if" map at time (t + 1) = "if" map at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab k = s
- k < j
- value at (j - 1) in map (Control Map at time t) = pair ("method", method_name)
then 'while stack' at time (t + 1) = 'while stack' at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab k = s
- k < j
- value at (j - 1) in map (Control Map at time t) = pair ("method", method_name)
then Python Object Store at time (t + 1) = Python Object Store at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab k = s
- k < j
- value at (j - 1) in map (Control Map at time t) = pair ("method", method_name)
then Class Map at time (t + 1) = Class Map at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab k = s
- k < j
- value at (j - 1) in map (Control Map at time t) = pair ("method", mname)
- stack at time t = [ program context with variables: varis and expression state: (expression state with parent stack: parent_stack arguments: arg_stack values: value_stack line: line tab: tab) and control map: control_map, rest ]
then Variables Map at time (t + 1) = varis
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab k = s
- k < j
- value at (j - 1) in map (Control Map at time t) = pair ("method", mname)
- stack at time t = [ program context with variables: varis and expression state: (expression state with parent stack: parent_stack arguments: arg_stack values: value_stack line: line tab: tab) and control map: control_map, rest ]
then the line at time (t + 1) = line
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab k = s
- k < j
- value at (j - 1) in map (Control Map at time t) = pair ("method", mname)
- stack at time t = [ program context with variables: varis and expression state: (expression state with parent stack: parent_stack arguments: arg_stack values: value_stack line: line tab: tab) and control map: control_map, rest ]
then the tab at time (t + 1) = tab
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab k = s
- k < j
- value at (j - 1) in map (Control Map at time t) = pair ("method", mname)
- stack at time t = [ program context with variables: varis and expression state: (expression state with parent stack: parent_stack arguments: arg_stack values: value_stack line: line tab: tab) and control map: control_map, rest ]
then expression state at time (t + 1) = "call_returned"
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab k = s
- k < j
- value at (j - 1) in map (Control Map at time t) = pair ("method", mname)
- stack at time t = [ program context with variables: varis and expression state: (expression state with parent stack: parent_stack arguments: arg_stack values: value_stack line: line tab: tab) and control map: control_map, rest ]
then parent stack at time (t + 1) = parent_stack
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab k = s
- k < j
- value at (j - 1) in map (Control Map at time t) = pair ("method", mname)
- stack at time t = [ program context with variables: varis and expression state: (expression state with parent stack: parent_stack arguments: arg_stack values: value_stack line: line tab: tab) and control map: control_map, rest ]
then stack at time (t + 1) = rest
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab k = s
- k < j
- value at (j - 1) in map (Control Map at time t) = pair ("method", mname)
- stack at time t = [ program context with variables: varis and expression state: (expression state with parent stack: parent_stack arguments: arg_stack values: value_stack line: line tab: tab) and control map: control_map, rest ]
then Value Stack at time (t + 1) = value_stack
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab k = s
- k < j
- value at (j - 1) in map (Control Map at time t) = pair ("method", mname)
- stack at time t = [ program context with variables: varis and expression state: (expression state with parent stack: parent_stack arguments: arg_stack values: value_stack line: line tab: tab) and control map: control_map, rest ]
then arguments stack at time (t + 1) = arg_stack
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab k = s
- k < j
- value at (j - 1) in map (Control Map at time t) = pair ("method", mname)
- stack at time t = [ program context with variables: varis and expression state: (expression state with parent stack: parent_stack arguments: arg_stack values: value_stack line: line tab: tab) and control map: control_map, rest ]
then Control Map at time (t + 1) = control_map
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab k = s
- k < j
- value at (j - 1) in map (Control Map at time t) = pair ("method", "__init__")
then Return Value at time (t + 1) = value at self in map (Variables Map at time t)
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab k = s
- k < j
- value at (j - 1) in map (Control Map at time t) = pair ("method", method_name)
- not (method_name = "__init__")
then Return Value at time (t + 1) = None
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j =
for target in iterable: - map (Control Map at time t) does not contain a for loop entry at line: i and tab: j
- expression state at time t = "not_expr"
then the expression at time (t + 1) = iterable
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j =
for target in iterable: - map (Control Map at time t) does not contain a for loop entry at line: i and tab: j
- expression state at time t = "not_expr"
then expression state at time (t + 1) = "begin_expr"
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j =
for target in iterable: - map (Control Map at time t) does not contain a for loop entry at line: i and tab: j
- expression state at time t = "not_expr"
then the line at time (t + 1) = i
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j =
for target in iterable: - map (Control Map at time t) does not contain a for loop entry at line: i and tab: j
- expression state at time t = "not_expr"
then the tab at time (t + 1) = j
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j =
for target in iterable: - map (Control Map at time t) does not contain a for loop entry at line: i and tab: j
- expression state at time t = "not_expr"
then Value Stack at time (t + 1) = [ ]
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j =
for target in iterable: - map (Control Map at time t) does not contain a for loop entry at line: i and tab: j
- expression state at time t = "not_expr"
then parent stack at time (t + 1) = [ ]
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j =
for target in iterable: - map (Control Map at time t) does not contain a for loop entry at line: i and tab: j
- expression state at time t = "not_expr"
then arguments stack at time (t + 1) = [ ]
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j =
for target in iterable: - map (Control Map at time t) does not contain a for loop entry at line: i and tab: j
- expression state at time t = "not_expr"
then Variables Map at time (t + 1) = Variables Map at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j =
for target in iterable: - map (Control Map at time t) does not contain a for loop entry at line: i and tab: j
- expression state at time t = "not_expr"
then Python Object Store at time (t + 1) = Python Object Store at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j =
for target in iterable: - map (Control Map at time t) does not contain a for loop entry at line: i and tab: j
- expression state at time t = "not_expr"
then Control Map at time (t + 1) = Control Map at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j =
for target in iterable: - map (Control Map at time t) does not contain a for loop entry at line: i and tab: j
- expression state at time t = "not_expr"
then Class Map at time (t + 1) = Class Map at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j =
for target in iterable: - iterable is a variable
then stack at time (t + 1) = stack at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j =
for target in iterable: - iterable is a variable
then "if" map at time (t + 1) = "if" map at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j =
for target in iterable: - iterable is a variable
then 'while stack' at time (t + 1) = 'while stack' at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j =
for target in iterable: - iterable is a variable
then Class Map at time (t + 1) = Class Map at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j =
for target in iterable: - expression state at time t = "end_expr"
then the line at time (t + 1) = i
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j =
for target in iterable: - expression state at time t = "end_expr"
then the tab at time (t + 1) = j
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j =
for target in iterable: - expression state at time t = "end_expr"
then "if" map at time (t + 1) = "if" map at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j =
for target in iterable: - expression state at time t = "end_expr"
then Python Object Store at time (t + 1) = Python Object Store at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j =
for target in iterable: - expression state at time t = "end_expr"
then Variables Map at time (t + 1) = Variables Map at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j =
for target in iterable: - expression state at time t = "end_expr"
then stack at time (t + 1) = stack at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j =
for target in iterable: - expression state at time t = "end_expr"
then 'while stack' at time (t + 1) = 'while stack' at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j =
for target in iterable: - expression state at time t = "end_expr"
then Class Map at time (t + 1) = Class Map at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j =
for target in iterable_ex: - expression state at time t = "end_expr"
- Return Value at time t = Python reference index
- the element at index index of stack (Python Object Store at time t) = Python list elements
then Control Map at time (t + 1) = result of storing (trio ("for", i, elements)) at key: j in map: (Control Map at time t)
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j =
for target in iterable_ex: - value at j in map (Control Map at time t) = trio ("for", i, [ elem, rest ])
then Variables Map at time (t + 1) = result of storing elem at key: target in map: (Variables Map at time t)
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j =
for target in iterable_ex: - value at j in map (Control Map at time t) = trio ("for", i, [ elem, rest ])
then the line at time (t + 1) = i + 1
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j =
for target in iterable_ex: - value at j in map (Control Map at time t) = trio ("for", i, [ elem, rest ])
then the tab at time (t + 1) = j + 1
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j =
for target in iterable_ex: - value at j in map (Control Map at time t) = trio ("for", i, [ elem, rest ])
then Control Map at time (t + 1) = result of storing (trio ("for", i, rest)) at key: j in map: (Control Map at time t)
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j =
for target in iterable_ex: - value at j in map (Control Map at time t) = trio ("for", i, [ elem, rest ])
then expression state at time (t + 1) = "not_expr"
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j =
for target in iterable_ex: - value at j in map (Control Map at time t) = trio ("for", i, [ elem, rest ])
then stack at time (t + 1) = stack at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j =
for target in iterable_ex: - value at j in map (Control Map at time t) = trio ("for", i, [ elem, rest ])
then "if" map at time (t + 1) = "if" map at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j =
for target in iterable_ex: - value at j in map (Control Map at time t) = trio ("for", i, [ elem, rest ])
then Python Object Store at time (t + 1) = Python Object Store at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j =
for target in iterable_ex: - value at j in map (Control Map at time t) = trio ("for", i, [ elem, rest ])
then 'while stack' at time (t + 1) = 'while stack' at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j =
for target in iterable_ex: - value at j in map (Control Map at time t) = trio ("for", i, [ elem, rest ])
then Class Map at time (t + 1) = Class Map at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j =
for target in iterable_ex: - value at j in map (Control Map at time t) = trio ("for", i, [ ])
then the line at time (t + 1) = i + 1
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j =
for target in iterable_ex: - value at j in map (Control Map at time t) = trio ("for", i, [ ])
then the tab at time (t + 1) = j
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j =
for target in iterable_ex: - value at j in map (Control Map at time t) = trio ("for", i, [ ])
then Control Map at time (t + 1) = Control Map at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j =
for target in iterable_ex: - value at j in map (Control Map at time t) = trio ("for", i, [ ])
then Variables Map at time (t + 1) = Variables Map at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j =
for target in iterable_ex: - value at j in map (Control Map at time t) = trio ("for", i, [ ])
then expression state at time (t + 1) = "not_expr"
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j =
for target in iterable_ex: - value at j in map (Control Map at time t) = trio ("for", i, [ ])
then stack at time (t + 1) = stack at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j =
for target in iterable_ex: - value at j in map (Control Map at time t) = trio ("for", i, [ ])
then "if" map at time (t + 1) = "if" map at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j =
for target in iterable_ex: - value at j in map (Control Map at time t) = trio ("for", i, [ ])
then Python Object Store at time (t + 1) = Python Object Store at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j =
for target in iterable_ex: - value at j in map (Control Map at time t) = trio ("for", i, [ ])
then 'while stack' at time (t + 1) = 'while stack' at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j =
for target in iterable_ex: - value at j in map (Control Map at time t) = trio ("for", i, [ ])
then Class Map at time (t + 1) = Class Map at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab k = s
- k < j
- value at (j - 1) in map (Control Map at time t) = trio ("for", for_line, iterable)
then the line at time (t + 1) = for_line
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab k = s
- k < j
- value at (j - 1) in map (Control Map at time t) = trio ("for", for_line, iterable)
then the tab at time (t + 1) = j - 1
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab k = s
- k < j
- value at (j - 1) in map (Control Map at time t) = trio ("for", for_line, iterable)
then Variables Map at time (t + 1) = Variables Map at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab k = s
- k < j
- value at (j - 1) in map (Control Map at time t) = trio ("for", for_line, iterable)
then stack at time (t + 1) = stack at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab k = s
- k < j
- value at (j - 1) in map (Control Map at time t) = trio ("for", for_line, iterable)
then "if" map at time (t + 1) = "if" map at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab k = s
- k < j
- value at (j - 1) in map (Control Map at time t) = trio ("for", for_line, iterable)
then expression state at time (t + 1) = expression state at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab k = s
- k < j
- value at (j - 1) in map (Control Map at time t) = trio ("for", for_line, iterable)
then Python Object Store at time (t + 1) = Python Object Store at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab k = s
- k < j
- value at (j - 1) in map (Control Map at time t) = trio ("for", for_line, iterable)
then Control Map at time (t + 1) = Control Map at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab k = s
- k < j
- value at (j - 1) in map (Control Map at time t) = trio ("for", for_line, iterable)
then 'while stack' at time (t + 1) = 'while stack' at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab k = s
- k < j
- value at (j - 1) in map (Control Map at time t) = trio ("for", for_line, iterable)
then Class Map at time (t + 1) = Class Map at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- number of lines = i - 1
- value at (j - 1) in map (Control Map at time t) = trio ("for", for_line, iterable)
then the line at time (t + 1) = for_line
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- number of lines = i - 1
- value at (j - 1) in map (Control Map at time t) = trio ("for", for_line, iterable)
then the tab at time (t + 1) = j - 1
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- number of lines = i - 1
- value at (j - 1) in map (Control Map at time t) = trio ("for", for_line, iterable)
then Variables Map at time (t + 1) = Variables Map at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- number of lines = i - 1
- value at (j - 1) in map (Control Map at time t) = trio ("for", for_line, iterable)
then stack at time (t + 1) = stack at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- number of lines = i - 1
- value at (j - 1) in map (Control Map at time t) = trio ("for", for_line, iterable)
then "if" map at time (t + 1) = "if" map at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- number of lines = i - 1
- value at (j - 1) in map (Control Map at time t) = trio ("for", for_line, iterable)
then expression state at time (t + 1) = expression state at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- number of lines = i - 1
- value at (j - 1) in map (Control Map at time t) = trio ("for", for_line, iterable)
then Python Object Store at time (t + 1) = Python Object Store at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- number of lines = i - 1
- value at (j - 1) in map (Control Map at time t) = trio ("for", for_line, iterable)
then Control Map at time (t + 1) = Control Map at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- number of lines = i - 1
- value at (j - 1) in map (Control Map at time t) = trio ("for", for_line, iterable)
then 'while stack' at time (t + 1) = 'while stack' at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- number of lines = i - 1
- value at (j - 1) in map (Control Map at time t) = trio ("for", for_line, iterable)
then Class Map at time (t + 1) = Class Map at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab k = s
- k > j
then the line at time (t + 1) = i + 1
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab k = s
- k > j
then Expression Stack at time (t + 1) = [ ]
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab k = s
- k > j
then the tab at time (t + 1) = the tab at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab k = s
- k > j
then Variables Map at time (t + 1) = Variables Map at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab k = s
- k > j
then Context Stack at time (t + 1) = Context Stack at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab k = s
- k > j
then Python Object Store at time (t + 1) = Python Object Store at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab k = s
- k > j
then Control Map at time (t + 1) = Control Map at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab k = s
- k > j
then Class Map at time (t + 1) = Class Map at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab k = s
- k < j
- value at (j - 1) in map (Control Map at time t) = pair ("while", while_line)
then the line at time (t + 1) = while_line
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab k = s
- k < j
- value at (j - 1) in map (Control Map at time t) = pair ("while", while_line)
then the tab at time (t + 1) = j - 1
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab k = s
- k < j
- value at (j - 1) in map (Control Map at time t) = pair ("while", while_line)
then Variables Map at time (t + 1) = Variables Map at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab k = s
- k < j
- value at (j - 1) in map (Control Map at time t) = pair ("while", while_line)
then Context Stack at time (t + 1) = Context Stack at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab k = s
- k < j
- value at (j - 1) in map (Control Map at time t) = pair ("while", while_line)
then Expression Stack at time (t + 1) = [ ]
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab k = s
- k < j
- value at (j - 1) in map (Control Map at time t) = pair ("while", while_line)
then Python Object Store at time (t + 1) = Python Object Store at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab k = s
- k < j
- value at (j - 1) in map (Control Map at time t) = pair ("while", while_line)
then Class Map at time (t + 1) = Class Map at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab k = s
- k < j
- value at (j - 1) in map (Control Map at time t) = pair ("while", while_line)
then Control Map at time (t + 1) = Control Map at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- number of lines = i - 1
- value at (j - 1) in map (Control Map at time t) = pair ("while", while_line)
then the line at time (t + 1) = while_line
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- number of lines = i - 1
- value at (j - 1) in map (Control Map at time t) = pair ("while", while_line)
then the tab at time (t + 1) = j - 1
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- number of lines = i - 1
- value at (j - 1) in map (Control Map at time t) = pair ("while", while_line)
then Variables Map at time (t + 1) = Variables Map at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- number of lines = i - 1
- value at (j - 1) in map (Control Map at time t) = pair ("while", while_line)
then Context Stack at time (t + 1) = Context Stack at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- number of lines = i - 1
- value at (j - 1) in map (Control Map at time t) = pair ("while", while_line)
then Expression Stack at time (t + 1) = [ ]
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- number of lines = i - 1
- value at (j - 1) in map (Control Map at time t) = pair ("while", while_line)
then Python Object Store at time (t + 1) = Python Object Store at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- number of lines = i - 1
- value at (j - 1) in map (Control Map at time t) = pair ("while", while_line)
then Class Map at time (t + 1) = Class Map at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- number of lines = i - 1
- value at (j - 1) in map (Control Map at time t) = pair ("while", while_line)
then Control Map at time (t + 1) = Control Map at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab k = s
- k < j
then Expression Stack at time (t + 1) = [ ]
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- number of lines = i - 1
- value at (j - 1) in map (Control Map at time t) = pair ("if", if_value)
then the line at time (t + 1) = i
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- number of lines = i - 1
- value at (j - 1) in map (Control Map at time t) = pair ("if", if_value)
then the tab at time (t + 1) = j - 1
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- number of lines = i - 1
- value at (j - 1) in map (Control Map at time t) = pair ("if", if_value)
then Expression Stack at time (t + 1) = [ ]
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- number of lines = i - 1
- value at (j - 1) in map (Control Map at time t) = pair ("if", if_value)
then Variables Map at time (t + 1) = Variables Map at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- number of lines = i - 1
- value at (j - 1) in map (Control Map at time t) = pair ("if", if_value)
then Context Stack at time (t + 1) = Context Stack at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- number of lines = i - 1
- value at (j - 1) in map (Control Map at time t) = pair ("if", if_value)
then Class Map at time (t + 1) = Class Map at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- number of lines = i - 1
- value at (j - 1) in map (Control Map at time t) = pair ("if", if_value)
then Control Map at time (t + 1) = Control Map at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- "break" state at t = "breaking"
- value at (j - 1) in map (Control Map at time t) = control_value
- control_value describes a loop = True
then the line at time (t + 1) = i + 1
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- "break" state at t = "breaking"
- value at (j - 1) in map (Control Map at time t) = control_value
- control_value describes a loop = True
then "break" state at (t + 1) = "not_breaking"
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- "break" state at t = "breaking"
- value at (j - 1) in map (Control Map at time t) = control_value
- control_value describes a loop = False
then the line at time (t + 1) = i
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- "break" state at t = "breaking"
- value at (j - 1) in map (Control Map at time t) = control_value
- control_value describes a loop = False
then "break" state at (t + 1) = "breaking"
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- "continue" state at t = "continuing"
- value at (j - 1) in map (Control Map at time t) = control_value
- control_value describes a loop = True
then the line at time (t + 1) = while_line
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- "continue" state at t = "continuing"
- value at (j - 1) in map (Control Map at time t) = control_value
- control_value describes a loop = True
then "continue" state at (t + 1) = "not_continuing"
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- "continue" state at t = "continuing"
- value at (j - 1) in map (Control Map at time t) = control_value
- control_value describes a loop = False
then the line at time (t + 1) = i
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- "continue" state at t = "continuing"
- value at (j - 1) in map (Control Map at time t) = control_value
- control_value describes a loop = False
then "continue" state at (t + 1) = "continuing"
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = c
- c is constant
then Class Map at time (t + 1) = Class Map at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = c
- c is constant
then Control Map at time (t + 1) = Control Map at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = c
- c is constant
then Python Object Store at time (t + 1) = Python Object Store at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = c
- c is constant
then Variables Map at time (t + 1) = Variables Map at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = c
- c is constant
then Context Stack at time (t + 1) = Context Stack at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = c
- c is constant
- Expression Stack at time t = [ ]
then Expression Stack at time (t + 1) = [ [ c, [ ] ], [ ] ]
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = c
- c is constant
- Expression Stack at time t = [ ]
then Value Stack at time (t + 1) = [ [ ], [ ] ]
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = c
- c is constant
- Expression Stack at time t = [ ]
then the line at time (t + 1) = i
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = c
- c is constant
- Expression Stack at time t = [ ]
then the tab at time (t + 1) = j
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = x
- x is a variable
then Variables Map at time (t + 1) = Variables Map at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = x
- x is a variable
then Context Stack at time (t + 1) = Context Stack at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = x
- x is a variable
then Control Map at time (t + 1) = Control Map at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = x
- x is a variable
then Class Map at time (t + 1) = Class Map at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = x
- x is a variable
then Python Object Store at time (t + 1) = Python Object Store at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = x
- c is a variable
- Expression Stack at time t = [ ]
then Expression Stack at time (t + 1) = [ [ x, [ ] ], [ ] ]
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = x
- c is a variable
- Expression Stack at time t = [ ]
then Value Stack at time (t + 1) = [ [ ], [ ] ]
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = x
- c is a variable
- Expression Stack at time t = [ ]
then the line at time (t + 1) = i
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = x
- c is a variable
- Expression Stack at time t = [ ]
then the tab at time (t + 1) = j
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = function call with name: name and arguments: args
then Class Map at time (t + 1) = Class Map at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = function call with name: name and arguments: args
- Expression Stack at time t = [ ]
then Expression Stack at time (t + 1) = [ [ function call with name: name and arguments: args, [ ] ], [ ] ]
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = function call with name: name and arguments: args
- Expression Stack at time t = [ ]
then Value Stack at time (t + 1) = [ [ ], [ ] ]
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = function call with name: name and arguments: args
- Expression Stack at time t = [ ]
then the line at time (t + 1) = i
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = function call with name: name and arguments: args
- Expression Stack at time t = [ ]
then the tab at time (t + 1) = j
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = function call with name: name and arguments: args
- Expression Stack at time t = [ ]
then Variables Map at time (t + 1) = Variables Map at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = function call with name: name and arguments: args
- Expression Stack at time t = [ ]
then Control Map at time (t + 1) = Control Map at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = function call with name: name and arguments: args
- Expression Stack at time t = [ ]
then Python Object Store at time (t + 1) = Python Object Store at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = function call with name: name and arguments: args
- Expression Stack at time t = [ ]
then Context Stack at time (t + 1) = Context Stack at time t
(link)if the following are true:
- Expression Stack at time t = [ [ x, ys ], rest ]
- Value Stack at time t = [ values, v_rest ]
- x is constant
then the line at time (t + 1) = the line at time t
(link)if the following are true:
- Expression Stack at time t = [ [ x, ys ], rest ]
- Value Stack at time t = [ values, v_rest ]
- x is a variable
then the line at time (t + 1) = the line at time t
(link)if Expression Stack at time t = [ [ function call with name: name and arguments: args, ys ], rest ], then the line at time (t + 1) = the line at time t
(link)if Expression Stack at time t = [ [ ], [ [ function call with name: "__add__" and arguments: args, ys ], rest ] ], then the line at time (t + 1) = the line at time t
(link)if Expression Stack at time t = [ [ ], [ [ function call with name: "__mul__" and arguments: args, ys ], rest ] ], then the line at time (t + 1) = the line at time t
(link)if Expression Stack at time t = [ [ ], [ [ function call with name: "__eq__" and arguments: args, ys ], rest ] ], then the line at time (t + 1) = the line at time t
(link)if Expression Stack at time t = [ [ ], [ [ function call with name: "__lt__" and arguments: args, ys ], rest ] ], then the line at time (t + 1) = the line at time t
(link)if Expression Stack at time t = [ [ ], [ [ function call with name: "__gt__" and arguments: args, ys ], rest ] ], then the line at time (t + 1) = the line at time t
(link)if the following are true:
- Expression Stack at time t = [ [ ], [ [ function call with name: name and arguments: args, ys ], rest ] ]
- Value Stack at time t = [ values, v_rest ]
- there is a function named name with parameters params at line line
- Parameters List at time t = None
then the line at time (t + 1) = the line at time t
(link)if Parameters List at time t = [ var, frest ], then the line at time (t + 1) = the line at time t
(link)if Parameters List at time t = [ ], then Context Stack at time (t + 1) = [ program context with variables: (Variables Map at time t) and expression state: (expression state with expression stack: (Expression Stack at time t) values: (Value Stack at time t) line: (the line at time t) tab: (the tab at time t)) and control map: (Control Map at time t), Context Stack at time t ]
(link)if the following are true:
- Parameters List at time t = [ ]
- Expression Stack at time t = [ [ ], [ [ function call with name: name and arguments: args, ys ], rest ] ]
- there is a function named name with parameters params at line line
then the line at time (t + 1) = line + 1
(link)if the following are true:
- Return Value at time t = [ r, [ ] ]
- Expression Stack at time t = [ [ ], [ [ function call with name: name and arguments: args, ys ], rest ] ]
- Value Stack at time t = [ next_level, other_levels ]
then the line at time (t + 1) = the line at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j =
target = expr - Expression Stack at time t = [ ]
then Expression Stack at time (t + 1) = [ [ expr, [ ] ], [ ] ]
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j =
target = expr - Expression Stack at time t = [ ]
then Value Stack at time (t + 1) = [ [ ], [ ] ]
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j =
target = expr - Expression Stack at time t = [ ]
then the line at time (t + 1) = i
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j =
target = expr - Expression Stack at time t = [ ]
then the tab at time (t + 1) = j
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j =
target = expr - Expression Stack at time t = [ ]
then Variables Map at time (t + 1) = Variables Map at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j =
target = expr - Expression Stack at time t = [ ]
then Control Map at time (t + 1) = Control Map at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j =
target = expr - Expression Stack at time t = [ ]
then Python Object Store at time (t + 1) = Python Object Store at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j =
target = expr - Expression Stack at time t = [ ]
then Context Stack at time (t + 1) = Context Stack at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j =
target = expr - Expression Stack at time t = [ [ ], [ ] ]
- Value Stack at time t = [ [ value, [ ] ], [ ] ]
then Variables Map at time (t + 1) = result of storing value at key: target in map: (Variables Map at time t)
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j =
target = expr - Expression Stack at time t = [ [ ], [ ] ]
- Value Stack at time t = [ [ value, [ ] ], [ ] ]
then the line at time (t + 1) = i + 1
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j =
target = expr - Expression Stack at time t = [ [ ], [ ] ]
- Value Stack at time t = [ [ value, [ ] ], [ ] ]
then the tab at time (t + 1) = the tab at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j =
target = expr - Expression Stack at time t = [ [ ], [ ] ]
- Value Stack at time t = [ [ value, [ ] ], [ ] ]
then Control Map at time (t + 1) = Control Map at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j =
target = expr - Expression Stack at time t = [ [ ], [ ] ]
- Value Stack at time t = [ [ value, [ ] ], [ ] ]
then Python Object Store at time (t + 1) = Python Object Store at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j =
target = expr - Expression Stack at time t = [ [ ], [ ] ]
- Value Stack at time t = [ [ value, [ ] ], [ ] ]
then Context Stack at time (t + 1) = Context Stack at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j =
target = expr
then Class Map at time (t + 1) = Class Map at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j =
if expr: - Expression Stack at time t = [ ]
then Expression Stack at time (t + 1) = [ [ expr, [ ] ], [ ] ]
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j =
if expr: - Expression Stack at time t = [ ]
then Value Stack at time (t + 1) = [ [ ], [ ] ]
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j =
if expr: - Expression Stack at time t = [ ]
then the line at time (t + 1) = i
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j =
if expr: - Expression Stack at time t = [ ]
then the tab at time (t + 1) = j
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j =
if expr: - Expression Stack at time t = [ ]
then Variables Map at time (t + 1) = Variables Map at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j =
if expr: - Expression Stack at time t = [ ]
then Control Map at time (t + 1) = Control Map at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j =
if expr: - Expression Stack at time t = [ ]
then Python Object Store at time (t + 1) = Python Object Store at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j =
if expr: - Expression Stack at time t = [ ]
then Context Stack at time (t + 1) = Context Stack at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j =
if expr: - Expression Stack at time t = [ [ ], [ ] ]
- Value Stack at time t = [ [ True, [ ] ], [ ] ]
then the line at time (t + 1) = i + 1
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j =
if expr: - Expression Stack at time t = [ [ ], [ ] ]
- Value Stack at time t = [ [ True, [ ] ], [ ] ]
then the tab at time (t + 1) = j + 1
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j =
if expr: - Expression Stack at time t = [ [ ], [ ] ]
- Value Stack at time t = [ [ True, [ ] ], [ ] ]
then Control Map at time (t + 1) = result of storing (pair ("if", True)) at key: j in map: (Control Map at time t)
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j =
if expr: - Expression Stack at time t = [ [ ], [ ] ]
- Value Stack at time t = [ [ False, [ ] ], [ ] ]
then the line at time (t + 1) = i + 1
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j =
if expr: - Expression Stack at time t = [ [ ], [ ] ]
- Value Stack at time t = [ [ False, [ ] ], [ ] ]
then the tab at time (t + 1) = j
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j =
if expr: - Expression Stack at time t = [ [ ], [ ] ]
- Value Stack at time t = [ [ False, [ ] ], [ ] ]
then Control Map at time (t + 1) = result of storing (pair ("if", False)) at key: j in map: (Control Map at time t)
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j =
if expr: - Expression Stack at time t = [ [ ], [ ] ]
then Variables Map at time (t + 1) = Variables Map at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j =
if expr: - Expression Stack at time t = [ [ ], [ ] ]
then Control Map at time (t + 1) = Control Map at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j =
if expr: - Expression Stack at time t = [ [ ], [ ] ]
then Context Stack at time (t + 1) = Context Stack at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j =
if expr: - Expression Stack at time t = [ [ ], [ ] ]
then Python Object Store at time (t + 1) = Python Object Store at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j =
if test:
then Class Map at time (t + 1) = Class Map at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j =
elif test: - Expression Stack at time t = [ ]
then Python Object Store at time (t + 1) = Python Object Store at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j =
elif test: - Expression Stack at time t = [ ]
then Control Map at time (t + 1) = Control Map at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j =
elif test: - Expression Stack at time t = [ ]
then Variables Map at time (t + 1) = Variables Map at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j =
elif test: - Expression Stack at time t = [ ]
then Context Stack at time (t + 1) = Context Stack at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j =
elif test: - value at j in map (Control Map at time t) = pair ("if", False)
- Expression Stack at time t = [ ]
then Expression Stack at time (t + 1) = [ [ expr, [ ] ], [ ] ]
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j =
elif test: - value at j in map (Control Map at time t) = pair ("if", False)
- Expression Stack at time t = [ ]
then Value Stack at time (t + 1) = [ [ ], [ ] ]
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j =
elif test: - value at j in map (Control Map at time t) = pair ("if", False)
- Expression Stack at time t = [ ]
then the line at time (t + 1) = i
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j =
elif test: - value at j in map (Control Map at time t) = pair ("if", False)
- Expression Stack at time t = [ ]
then the tab at time (t + 1) = j
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j =
elif test: - value at j in map (Control Map at time t) = pair ("if", False)
- Expression Stack at time t = [ ]
then Variables Map at time (t + 1) = Variables Map at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j =
elif test: - value at j in map (Control Map at time t) = pair ("if", False)
- Expression Stack at time t = [ ]
then Control Map at time (t + 1) = Control Map at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j =
elif test: - value at j in map (Control Map at time t) = pair ("if", False)
- Expression Stack at time t = [ ]
then Python Object Store at time (t + 1) = Python Object Store at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j =
elif test: - value at j in map (Control Map at time t) = pair ("if", False)
- Expression Stack at time t = [ ]
then Context Stack at time (t + 1) = Context Stack at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j =
elif test: - value at j in map (Control Map at time t) = pair ("if", True)
- Expression Stack at time t = [ ]
then the line at time (t + 1) = i + 1
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j =
elif test: - value at j in map (Control Map at time t) = pair ("if", True)
- Expression Stack at time t = [ ]
then the tab at time (t + 1) = j
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j =
elif test: - value at j in map (Control Map at time t) = pair ("if", True)
- Expression Stack at time t = [ ]
then Variables Map at time (t + 1) = Variables Map at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j =
elif test: - value at j in map (Control Map at time t) = pair ("if", True)
- Expression Stack at time t = [ ]
then Control Map at time (t + 1) = Control Map at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j =
elif test: - value at j in map (Control Map at time t) = pair ("if", True)
- Expression Stack at time t = [ ]
then Python Object Store at time (t + 1) = Python Object Store at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j =
elif test: - value at j in map (Control Map at time t) = pair ("if", True)
- Expression Stack at time t = [ ]
then Context Stack at time (t + 1) = Context Stack at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j =
elif test: - Expression Stack at time t = [ [ ], [ ] ]
then Python Object Store at time (t + 1) = Python Object Store at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j =
elif test: - Expression Stack at time t = [ [ ], [ ] ]
then Variables Map at time (t + 1) = Variables Map at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j =
elif test: - Expression Stack at time t = [ [ ], [ ] ]
then Context Stack at time (t + 1) = Context Stack at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j =
elif expr: - Expression Stack at time t = [ [ ], [ ] ]
- Value Stack at time t = [ [ True, [ ] ], [ ] ]
then the line at time (t + 1) = i + 1
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j =
elif expr: - Expression Stack at time t = [ [ ], [ ] ]
- Value Stack at time t = [ [ True, [ ] ], [ ] ]
then the tab at time (t + 1) = j + 1
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j =
elif expr: - Expression Stack at time t = [ [ ], [ ] ]
- Value Stack at time t = [ [ True, [ ] ], [ ] ]
then Control Map at time (t + 1) = result of storing (pair ("if", True)) at key: j in map: (Control Map at time t)
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j =
elif expr: - Expression Stack at time t = [ [ ], [ ] ]
- Value Stack at time t = [ [ False, [ ] ], [ ] ]
then the line at time (t + 1) = i + 1
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j =
elif expr: - Expression Stack at time t = [ [ ], [ ] ]
- Value Stack at time t = [ [ False, [ ] ], [ ] ]
then the tab at time (t + 1) = j
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j =
elif expr: - Expression Stack at time t = [ [ ], [ ] ]
- Value Stack at time t = [ [ False, [ ] ], [ ] ]
then Control Map at time (t + 1) = Control Map at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j =
elif test:
then Class Map at time (t + 1) = Class Map at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j =
else: - value at j in map (Control Map at time t) = pair ("if", False)
then the line at time (t + 1) = i + 1
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j =
else: - value at j in map (Control Map at time t) = pair ("if", False)
then the tab at time (t + 1) = j + 1
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j =
else: - value at j in map (Control Map at time t) = pair ("if", True)
then the line at time (t + 1) = i + 1
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j =
else: - value at j in map (Control Map at time t) = pair ("if", True)
then the tab at time (t + 1) = j
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j =
else:
then Variables Map at time (t + 1) = Variables Map at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j =
else:
then Context Stack at time (t + 1) = Context Stack at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j =
else:
then Python Object Store at time (t + 1) = Python Object Store at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j =
else:
then Control Map at time (t + 1) = Control Map at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j =
else:
then Class Map at time (t + 1) = Class Map at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j =
else:
then Expression Stack at time (t + 1) = [ ]
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab k = s
- k < j
- value at (j - 1) in map (Control Map at time t) = pair ("if", if_value)
then the line at time (t + 1) = i
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab k = s
- k < j
- value at (j - 1) in map (Control Map at time t) = pair ("if", if_value)
then the tab at time (t + 1) = j - 1
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab k = s
- k < j
- value at (j - 1) in map (Control Map at time t) = pair ("if", if_value)
then Variables Map at time (t + 1) = Variables Map at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab k = s
- k < j
- value at (j - 1) in map (Control Map at time t) = pair ("if", if_value)
then Context Stack at time (t + 1) = Context Stack at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab k = s
- k < j
- value at (j - 1) in map (Control Map at time t) = pair ("if", if_value)
then Python Object Store at time (t + 1) = Python Object Store at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab k = s
- k < j
- value at (j - 1) in map (Control Map at time t) = pair ("if", if_value)
then Class Map at time (t + 1) = Class Map at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab k = s
- k < j
- value at (j - 1) in map (Control Map at time t) = pair ("if", if_value)
then Control Map at time (t + 1) = Control Map at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j =
while test: - Expression Stack at time t = [ ]
then Expression Stack at time (t + 1) = [ [ test, [ ] ], [ ] ]
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j =
while test: - Expression Stack at time t = [ ]
then the line at time (t + 1) = i
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j =
while test: - Expression Stack at time t = [ ]
then the tab at time (t + 1) = j
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j =
while test: - Expression Stack at time t = [ ]
then Value Stack at time (t + 1) = [ [ ], [ ] ]
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j =
while test: - Expression Stack at time t = [ ]
then Python Object Store at time (t + 1) = Python Object Store at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j =
while test: - Expression Stack at time t = [ ]
then Control Map at time (t + 1) = Control Map at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j =
while test: - Expression Stack at time t = [ ]
then Variables Map at time (t + 1) = Variables Map at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j =
while test: - Expression Stack at time t = [ ]
then Context Stack at time (t + 1) = Context Stack at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j =
while test:
then Class Map at time (t + 1) = Class Map at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j =
while test: - Expression Stack at time t = [ [ ], [ ] ]
then the line at time (t + 1) = i + 1
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j =
while test: - Expression Stack at time t = [ [ ], [ ] ]
then Python Object Store at time (t + 1) = Python Object Store at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j =
while test: - Expression Stack at time t = [ [ ], [ ] ]
then Variables Map at time (t + 1) = Variables Map at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j =
while test: - Expression Stack at time t = [ [ ], [ ] ]
then Context Stack at time (t + 1) = Context Stack at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = "while" statement with condition (function call with name: name and arguments: args)
- Expression Stack at time t = [ [ ], [ ] ]
- Value Stack at time t = [ [ True, [ ] ], [ ] ]
then the tab at time (t + 1) = j + 1
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = "while" statement with condition (function call with name: name and arguments: args)
- Expression Stack at time t = [ [ ], [ ] ]
- Value Stack at time t = [ [ True, [ ] ], [ ] ]
then Control Map at time (t + 1) = result of storing (pair ("while", i)) at key: j in map: (Control Map at time t)
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = "while" statement with condition (function call with name: name and arguments: args)
- Expression Stack at time t = [ [ ], [ ] ]
- Value Stack at time t = [ [ False, [ ] ], [ ] ]
then the tab at time (t + 1) = j
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = "while" statement with condition (function call with name: name and arguments: args)
- Expression Stack at time t = [ [ ], [ ] ]
- Value Stack at time t = [ [ False, [ ] ], [ ] ]
then Control Map at time (t + 1) = Control Map at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j =
break
then "break" state at (t + 1) = "breaking"
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j =
break
then the line at time (t + 1) = i
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j =
break
then the tab at time (t + 1) = j
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j =
break
then Variables Map at time (t + 1) = Variables Map at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j =
break
then Context Stack at time (t + 1) = Context Stack at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j =
break
then Python Object Store at time (t + 1) = Python Object Store at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j =
break
then Control Map at time (t + 1) = Control Map at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j =
break
then Class Map at time (t + 1) = Class Map at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j =
continue
then "continue" state at (t + 1) = "continuing"
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j =
continue
then the line at time (t + 1) = i
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j =
continue
then the tab at time (t + 1) = j
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j =
continue
then Expression Stack at time (t + 1) = [ ]
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j =
continue
then Variables Map at time (t + 1) = Variables Map at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j =
continue
then Context Stack at time (t + 1) = Context Stack at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j =
continue
then Python Object Store at time (t + 1) = Python Object Store at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j =
continue
then Control Map at time (t + 1) = Control Map at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j =
continue
then Class Map at time (t + 1) = Class Map at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = function definition where name: name and parameters: params
then there is a function named name with parameters params at line line
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = function definition where name: name and parameters: params
then Variables Map at time (t + 1) = Variables Map at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = function definition where name: name and parameters: params
then the line at time (t + 1) = i + 1
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = function definition where name: name and parameters: params
then the tab at time (t + 1) = j
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = function definition where name: name and parameters: params
then Context Stack at time (t + 1) = Context Stack at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = function definition where name: name and parameters: params
then Python Object Store at time (t + 1) = Python Object Store at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = function definition where name: name and parameters: params
then Control Map at time (t + 1) = Control Map at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j = function definition where name: name and parameters: params
then Class Map at time (t + 1) = Class Map at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j =
return v
then Class Map at time (t + 1) = Class Map at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j =
return c - c is constant
then Python Object Store at time (t + 1) = Python Object Store at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j =
return c - c is a variable
then Python Object Store at time (t + 1) = Python Object Store at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j =
return rex - Expression Stack at time t = [ ]
then Expression Stack at time (t + 1) = [ [ rex, [ ] ], [ ] ]
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j =
return rex - Expression Stack at time t = [ ]
then Value Stack at time (t + 1) = [ [ ], [ ] ]
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j =
return rex - Expression Stack at time t = [ ]
then the line at time (t + 1) = i
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j =
return rex - Expression Stack at time t = [ ]
then the tab at time (t + 1) = j
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j =
return rex - Expression Stack at time t = [ ]
then Variables Map at time (t + 1) = Variables Map at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j =
return rex - Expression Stack at time t = [ ]
then Context Stack at time (t + 1) = Context Stack at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j =
return rex - Expression Stack at time t = [ ]
then Python Object Store at time (t + 1) = Python Object Store at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j =
return rex - Expression Stack at time t = [ ]
then Control Map at time (t + 1) = Control Map at time t
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j =
return rex - Context Stack at time t = [ program context with variables: vars and expression state: (expression state with expression stack: expr_stack values: value_stack line: line tab: tab) and control map: control_map, rest ]
- Expression Stack at time t = [ [ ], [ ] ]
then Variables Map at time (t + 1) = vars
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j =
return rex - Context Stack at time t = [ program context with variables: vars and expression state: (expression state with expression stack: expr_stack values: value_stack line: line tab: tab) and control map: control_map, rest ]
- Expression Stack at time t = [ [ ], [ ] ]
then the line at time (t + 1) = line
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j =
return rex - Context Stack at time t = [ program context with variables: vars and expression state: (expression state with expression stack: expr_stack values: value_stack line: line tab: tab) and control map: control_map, rest ]
- Expression Stack at time t = [ [ ], [ ] ]
then the tab at time (t + 1) = tab
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j =
return rex - Context Stack at time t = [ program context with variables: vars and expression state: (expression state with expression stack: expr_stack values: value_stack line: line tab: tab) and control map: control_map, rest ]
- Expression Stack at time t = [ [ ], [ ] ]
then Control Map at time (t + 1) = control_map
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j =
return rex - Context Stack at time t = [ program context with variables: vars and expression state: (expression state with expression stack: expr_stack values: value_stack line: line tab: tab) and control map: control_map, rest ]
- Expression Stack at time t = [ [ ], [ ] ]
then Context Stack at time (t + 1) = rest
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j =
return rex - Context Stack at time t = [ program context with variables: vars and expression state: (expression state with expression stack: expr_stack values: value_stack line: line tab: tab) and control map: control_map, rest ]
- Expression Stack at time t = [ [ ], [ ] ]
then Expression Stack at time (t + 1) = expr_stack
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j =
return rex - Context Stack at time t = [ program context with variables: vars and expression state: (expression state with expression stack: expr_stack values: value_stack line: line tab: tab) and control map: control_map, rest ]
- Expression Stack at time t = [ [ ], [ ] ]
then Value Stack at time (t + 1) = value_stack
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j =
return rex - Expression Stack at time t = [ [ ], [ ] ]
- Value Stack at time t = [ [ value, [ ] ], [ ] ]
then Return Value at time (t + 1) = [ value, [ ] ]
(link)if the following are true:
- the line at time t = i
- the tab at time t = j
- statement at line i, tab j =
return rex - Expression Stack at time t = [ [ ], [ ] ]
then Python Object Store at time (t + 1) = Python Object Store at time t
(link)
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