paul@417 | 1 | Class and Module Attribute Assignment
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paul@417 | 2 | =====================================
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paul@417 | 3 |
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paul@417 | 4 | Verify that the context information is correctly set, particularly for the unoptimised
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paul@417 | 5 | cases.
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paul@417 | 6 |
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paul@417 | 7 | Update docs/assignment.txt.
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paul@417 | 8 |
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paul@413 | 9 | Dynamic Attribute Access
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paul@413 | 10 | ========================
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paul@413 | 11 |
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paul@413 | 12 | Consider explicit accessor initialisation.
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paul@413 | 13 |
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paul@394 | 14 | Attribute Usage
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paul@394 | 15 | ===============
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paul@394 | 16 |
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paul@390 | 17 | Consider attribute assignment observations, along with the possibility of class attribute
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paul@390 | 18 | assignment.
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paul@372 | 19 |
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paul@404 | 20 | Note direct assignments as usual, indirect assignments via the attribute usage
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paul@404 | 21 | mechanism. During attribute collection and inference, add assigned values to all
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paul@404 | 22 | inferred targets.
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paul@404 | 23 |
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paul@404 | 24 | Since class attributes can be assigned, StoreAttrIndex would no longer need to reject
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paul@404 | 25 | static attributes, although this might still be necessary where attribute usage analysis
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paul@404 | 26 | has not been performed.
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paul@404 | 27 |
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paul@404 | 28 | Potentially consider changing static attribute details to use object-relative offsets in
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paul@404 | 29 | order to simplify the instruction implementations. This might allow us to eliminate the
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paul@404 | 30 | static attribute flag for attributes in the object table, at least at run-time.
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paul@404 | 31 |
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paul@372 | 32 | Consider attribute usage observations being suspended inside blocks where AttributeError
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paul@372 | 33 | may be caught (although this doesn't anticipate such exceptions being caught outside a
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paul@372 | 34 | function altogether).
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paul@372 | 35 |
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paul@364 | 36 | Consider type deduction and its consequences where types belong to the same hierarchy
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paul@364 | 37 | and where a guard could be generated for the most general type.
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paul@364 | 38 |
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paul@364 | 39 | Consider permitting multiple class alternatives where the attributes are all identical.
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paul@364 | 40 |
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paul@360 | 41 | Support class attribute positioning similar to instance attribute positioning, potentially
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paul@360 | 42 | (for both) based on usage observations. For example, if __iter__ is used on two classes,
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paul@360 | 43 | the class attribute could be exposed at a similar relative position to the class (and
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paul@360 | 44 | potentially accessible using a LoadAttr-style instruction).
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paul@360 | 45 |
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paul@394 | 46 | **** Constant attribute users need not maintain usage since they are already resolved. ****
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paul@394 | 47 |
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paul@394 | 48 | Loop entry points should capture usage to update later assignments in the loop.
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paul@394 | 49 | The continue and break statements should affect usage propagation.
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paul@394 | 50 |
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paul@394 | 51 | Consider handling CallFunc in micropython.inspect in order to produce instances of specific classes.
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paul@394 | 52 | Then, consider adding support for guard removal/verification where known instances are involved.
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paul@394 | 53 | Consider handling branches of values within namespaces in order to support more precise value usage.
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paul@394 | 54 |
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paul@394 | 55 | Frame Optimisations
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paul@394 | 56 | ===================
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paul@394 | 57 |
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paul@394 | 58 | Stack frame replacement where a local frame is unused after a call, such as in a tail call
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paul@394 | 59 | situation.
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paul@394 | 60 |
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paul@394 | 61 | Local assignment detection plus frame re-use. Example: slice.__init__ calls
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paul@394 | 62 | xrange.__init__ with the same arguments which are unchanged in xrange.__init__. There is
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paul@394 | 63 | therefore no need to build a new frame for this call.
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paul@394 | 64 |
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paul@394 | 65 | Function Specialisation
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paul@394 | 66 | =======================
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paul@394 | 67 |
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paul@394 | 68 | Specialisation of certain functions, such as isinstance(x, cls) where cls is a known
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paul@394 | 69 | constant.
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paul@394 | 70 |
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paul@394 | 71 | Structure and Object Table Optimisations
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paul@394 | 72 | ========================================
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paul@394 | 73 |
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paul@394 | 74 | Fix object table entries for attributes not provided by any known object, or provide an
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paul@394 | 75 | error, potentially overridden by options. For example, the augmented assignment methods
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paul@394 | 76 | are not supported by the built-in objects and thus the operator module functions cause
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paul@394 | 77 | the compilation to fail. Alternatively, just supply the methods since something has to do
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paul@394 | 78 | so in the builtins.
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paul@394 | 79 |
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paul@394 | 80 | Consider attribute merging where many attributes are just aliases for the same underlying
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paul@394 | 81 | definition.
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paul@394 | 82 |
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paul@349 | 83 | Consider references to defaults as occurring only within the context of a particular
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paul@349 | 84 | function, thus eliminating default value classes if such functions are not themselves
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paul@349 | 85 | invoked.
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paul@349 | 86 |
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paul@394 | 87 | Scope Handling
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paul@394 | 88 | ==============
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paul@394 | 89 |
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paul@394 | 90 | Consider merging the InspectedModule.store tests with the scope conflict handling.
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paul@394 | 91 |
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paul@343 | 92 | Consider labelling _scope on assignments and dealing with the assignment of removed
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paul@343 | 93 | attributes, possibly removing the entire assignment, and distinguishing between such cases
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paul@343 | 94 | and unknown names.
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paul@343 | 95 |
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paul@342 | 96 | Check name origin where multiple branches could yield multiple scope interpretations:
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paul@342 | 97 |
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paul@342 | 98 | ----
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paul@342 | 99 | try:
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paul@342 | 100 | set # built-in name
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paul@342 | 101 | except NameError:
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paul@342 | 102 | from sets import Set as set # local definition of name
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paul@342 | 103 |
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paul@342 | 104 | set # could be confused by the local definition at run-time
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paul@342 | 105 | ----
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paul@342 | 106 |
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paul@394 | 107 | Object Coverage
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paul@394 | 108 | ===============
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paul@394 | 109 |
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paul@332 | 110 | Support __init__ traversal (and other implicit names) more effectively.
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paul@332 | 111 |
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paul@394 | 112 | Other
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paul@394 | 113 | =====
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paul@394 | 114 |
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paul@408 | 115 | Support tuple as a function returning any input tuple uncopied.
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paul@408 | 116 |
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paul@332 | 117 | Check context_value initialisation (avoiding or handling None effectively).
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paul@332 | 118 |
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paul@342 | 119 | __getitem__ could be written in Python, using a native method only to access fragments.
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paul@349 | 120 |
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paul@342 | 121 | Consider better "macro" support where new expressions need to be generated and processed.
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paul@402 | 122 |
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paul@402 | 123 | Detect TestIdentity results involving constants, potentially optimising status-affected
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paul@402 | 124 | instructions:
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paul@402 | 125 |
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paul@402 | 126 | TestIdentity(x, y) # where x is always y
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paul@402 | 127 | JumpIfFalse(...) # would be removed (never false)
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paul@402 | 128 | JumpIfTrue(...) # changed to Jump(...)
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paul@402 | 129 |
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paul@402 | 130 | Status-affected blocks could be optimised away for such constant-related results.
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