| 1 | \chapter{Future Work}
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| 2 |
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| 3 | \section{Language Improvements}
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| 4 | \CFA is a developing programming language. As such, there are partially or
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| 5 | unimplemented features of the language (including several broken components)
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| 6 | that I had to workaround while building an exception handling system largely in
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| 7 | the \CFA language (some C components). The following are a few of these
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| 8 | issues, and once implemented/fixed, how this would affect the exception system.
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| 9 | \begin{itemize}
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| 10 | \item
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| 11 | The implementation of termination is not portable because it includes
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| 12 | hand-crafted assembly statements. These sections must be generalized to support
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| 13 | more hardware architectures, \eg ARM processor.
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| 14 | \item
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| 15 | Due to a type-system problem, the catch clause cannot bind the exception to a
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| 16 | reference instead of a pointer. Since \CFA has a very general reference
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| 17 | capability, programmers will want to use it. Once fixed, this capability should
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| 18 | result in little or no change in the exception system.
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| 19 | \item
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| 20 | Termination handlers cannot use local control-flow transfers, \eg by @break@,
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| 21 | @return@, \etc. The reason is that current code generation hoists a handler
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| 22 | into a nested function for convenience (versus assemble-code generation at the
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| 23 | @try@ statement). Hence, when the handler runs, its code is not in the lexical
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| 24 | scope of the @try@ statement, where the local control-flow transfers are
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| 25 | meaningful.
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| 26 | \end{itemize}
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| 27 |
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| 28 | \section{Complete Virtual System}
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| 29 | The virtual system should be completed. It was not supposed to be part of this
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| 30 | project, but was thrust upon it to do exception inheritance; hence, only
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| 31 | minimal work was done. A draft for a complete virtual system is available but
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| 32 | it is not finalized. A future \CFA project is to complete that work and then
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| 33 | update the exception system that uses the current version.
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| 34 |
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| 35 | There are several improvements to the virtual system that would improve the
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| 36 | exception traits. The most important one is an assertion to check one virtual
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| 37 | type is a child of another. This check precisely captures many of the
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| 38 | correctness requirements.
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| 39 |
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| 40 | The full virtual system might also include other improvement like associated
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| 41 | types to allow traits to refer to types not listed in their header. This
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| 42 | feature allows exception traits to not refer to the virtual-table type
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| 43 | explicitly, removing the need for the current interface macros.
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| 44 |
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| 45 | \section{Additional Raises}
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| 46 | Several other kinds of exception raises were considered beyond termination
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| 47 | (@throw@), resumption (@throwResume@), and reraise.
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| 48 |
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| 49 | The first is a non-local/concurrent raise providing asynchronous exceptions,
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| 50 | \ie raising an exception on another stack. This semantics acts like signals
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| 51 | allowing for out-of-band communication among coroutines and threads. This kind
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| 52 | of raise is often restricted to resumption to allow the target stack to
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| 53 | continue execution normally after the exception has been handled. That is,
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| 54 | allowing one coroutine/thread to unwind the stack of another via termination is
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| 55 | bad software engineering.
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| 56 |
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| 57 | Non-local/concurrent requires more coordination between the concurrency system
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| 58 | and the exception system. Many of the interesting design decisions centre
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| 59 | around masking (controlling which exceptions may be thrown at a stack). It
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| 60 | would likely require more of the virtual system and would also effect how
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| 61 | default handlers are set.
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| 62 |
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| 63 | Other raises were considered to mimic bidirectional algebraic effects.
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| 64 | Algebraic effects are used in some functional languages allowing one function
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| 65 | to have another function on the stack resolve an effect (which is defined with
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| 66 | a functional-like interface). This semantics can be mimicked with resumptions
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| 67 | and new raises were discussed to mimic bidirectional algebraic-effects, where
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| 68 | control can go back and forth between the function-effect caller and handler
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| 69 | while the effect is underway.
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| 70 | % resume-top & resume-reply
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| 71 | These raises would be like the resumption raise except using different search
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| 72 | patterns to find the handler.
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| 73 |
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| 74 | \section{Zero-Cost Try}
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| 75 | \CFA does not have zero-cost try-statements because the compiler generates C
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| 76 | code rather than assembler code \see{\VPageref{p:zero-cost}}. When the compiler
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| 77 | does create its own assembly (or LLVM byte-code), then zero-cost try-statements
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| 78 | are possible. The downside of zero-cost try-statements is the LSDA complexity,
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| 79 | its size (program bloat), and the high cost of raising an exception.
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| 80 |
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| 81 | Alternatively, some research could be done into the simpler alternative method
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| 82 | with a non-zero-cost try-statement but much lower cost exception raise. For
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| 83 | example, programs are starting to use exception in the normal control path, so
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| 84 | more exceptions are thrown. In these cases, the cost balance switches towards
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| 85 | low-cost raise. Unfortunately, while exceptions remain exceptional, the
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| 86 | libunwind model will probably remain the most effective option.
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| 87 |
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| 88 | Zero-cost resumptions is still an open problem. First, because libunwind does
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| 89 | not support a successful-exiting stack-search without doing an unwind.
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| 90 | Workarounds are possible but awkward. Ideally an extension to libunwind could
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| 91 | be made, but that would either require separate maintenance or gain enough
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| 92 | support to have it folded into the standard.
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| 93 |
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| 94 | Also new techniques to skip previously searched parts of the stack need to be
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| 95 | developed to handle the recursive resume problem and support advanced algebraic
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| 96 | effects.
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| 97 |
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| 98 | \section{Signal Exceptions}
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| 99 | Goodenough~\cite{Goodenough75} suggests three types of exceptions: escape,
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| 100 | notify and signal. Escape are termination exceptions, notify are resumption
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| 101 | exceptions, leaving signal unimplemented.
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| 102 |
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| 103 | A signal exception allows either behaviour, \ie after an exception is handled,
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| 104 | the handler has the option of returning to the raise or after the @try@
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| 105 | statement. Currently, \CFA fixes the semantics of the handler return
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| 106 | syntactically by the @catch@ or @catchResume@ clause.
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| 107 |
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| 108 | Signal exception should be reexamined and possibly be supported in \CFA. A very
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| 109 | direct translation is to have a new raise and catch pair, and a new statement
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| 110 | (or statements) would indicate if the handler returns to the raise or continues
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| 111 | where it is; but there may be other options.
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| 112 |
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| 113 | For instance, resumption could be extended to cover this use by allowing local
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| 114 | control flow out of it. This approach would require an unwind as part of the
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| 115 | transition as there are stack frames that have to be removed. This approach
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| 116 | means there is no notify raise, but because \CFA does not have exception
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| 117 | signatures, a termination can be thrown from within any resumption handler so
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| 118 | there is already a way to do mimic this in existing \CFA.
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| 119 |
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| 120 | % Maybe talk about the escape; and escape CONTROL_STMT; statements or how
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| 121 | % if we could choose if _Unwind_Resume proceeded to the clean-up stage this
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| 122 | % would be much easier to implement.
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