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etc:users:jcmvbkbc:isl

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etc:users:jcmvbkbc:isl [2010/08/15 13:43] jcmvbkbcetc:users:jcmvbkbc:isl [2016/08/08 20:53] (current) – ↷ Page moved from users:jcmvbkbc:isl to etc:users:jcmvbkbc:isl kel
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 [[http://jcmvbkbc.spb.ru/git/?p=dumb/isl.git;a=summary | Git repo (http)]] [[http://jcmvbkbc.spb.ru/git/?p=dumb/isl.git;a=summary | Git repo (http)]]
 +
 +[[http://jcmvbkbc.spb.ru:8000/isle/trac | Project tracker]]
  
 ===== Orthogonal aspects ===== ===== Orthogonal aspects =====
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 When the header is absent Param1 corresponds to the trailer. If there's no trailer, its parameter number corresponds to the signal data. When the header is absent Param1 corresponds to the trailer. If there's no trailer, its parameter number corresponds to the signal data.
 +
 +Interfaces visible from root package, not referenced from other interfaces visible from root package get translated to pack/unpack.
  
 ===== Decoding context ===== ===== Decoding context =====
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 Only mandatory fields may have LengthRestriction > 1. Only mandatory fields may have LengthRestriction > 1.
 +
 +===== Derived interfaces =====
 +  * if derivation is by inversion, another interface is created and parent's pack-only messages become its unpack-only and vice versa;
 +  * if derivation is by narrowing, another interface is created and extra messages are removed from there;
 +  * derived interface is always represented by the DerivedInterface class;
  
 ===== Validation constraints ===== ===== Validation constraints =====
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   * every pack/unpack message has corresponding messagetype;   * every pack/unpack message has corresponding messagetype;
   * header and trailer follow the rules for fields;   * header and trailer follow the rules for fields;
 +  * message types are all different;
  
 ==== Field/Message ==== ==== Field/Message ====
   * types of subfields are visible, parameterized types has required arguments;   * types of subfields are visible, parameterized types has required arguments;
   * field names are unique in each field contents scope;   * field names are unique in each field contents scope;
 +  * no cyclic dependencies of fields/messages (mt does not allow it);
 +    * however, even with the current naming rules there may be cyclic dependencies in optional_repeated parts and inside case constructs;
 +    * generally every optional parts and case content may have cyclic dependencies;
 +
 +==== Constants ====
 +  * expression in constant's definition may only refer to other constants and literals;
 +  * constants may not have recursive definition;
  
 ===== Language features ===== ===== Language features =====
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     * sibling packages don't merge and don't collide, one defined later is effective, others are ignored;     * sibling packages don't merge and don't collide, one defined later is effective, others are ignored;
  
-===== Things to think about ===== 
-  * Diagnostics/error handling 
  
 +===== Naming for C output =====
 +
 +There are two generic rules:
 +  * type names are generated with suffix '_t' added to the base name;
 +  * when there's only one subfield in the field it gets reduced, like there's no container structure. Subfield gets basic name of its container;
 +    * 'one subfield' is literally one subfield. Presence of the special-purpose subfields that would not get into the structure or constant fillers cancels reduction.
 +
 +==== Field/message type ====
 +
 +<C field type> = <Field name>_t
 +
 +Ex:
 +<code>
 +field A
 +{
 +...
 +}
 +
 +typedef struct {...} A_t;
 +</code>
 +
 +==== Enum ====
 +
 +Enum type:
 +  * if this is the only subfield (so that reduction takes place), <C enum type> = <C field type>;
 +  * otherwise <C enum type> = <Field name>_<subfield name>_t;
 +
 +<C Enum value> = <C enum type>_<Enum value>
 +
 +Ex:
 +<code>
 +field A
 +{
 +    a : 1 byte { V1 = 1, V2 = 2 };
 +}
 +field B
 +{
 +    a : 1 byte { V1 = 1, V2 = 2 },
 +    b : 1 byte { V1 = 1, V2 = 2 };
 +}
 +
 +typedef enum { A_t_V1 = 1, A_t_V2 = 2 } A_t; // reduction
 +typedef enum { B_a_t_V1 = 1, B_a_t_V2 = 2 } B_a_t;
 +</code>
 +
 +
 +==== Case ====
 +
 +  * <C choice type> = <C container type>_<tag subfield name>_choice{index, if > 1}
 +  * <C choice type_t> = <C choice type>_t
 +  * case labels (only literals, tag field enum values or global constants may be used):
 +    * for numeric labels <C case name> = case<case label>
 +    * for enum labels <C case name> = <enum label>
 +
 +Choice is always represented by the following structure:
 +<code>
 +struct <C choice type_t> { <C choice type_t>_tag_enum _tag; <C choice type_t>_uunion U; };
 +typedef enum { <C choice type_t>_tag_enum_<C case name>, ... } <C choice type_t>_tag_enum;
 +union <C choice type_t>_uunion { <C choice type>_<C case name>_t <C case name>; ... };
 +</code>
 +
 +Ex: see case.pdu
 +
 +===== Schedule =====
 +  * finalize naming for the following items:
 +    * exported constants;
 +    * cases;
 +    * ranges;
 +    * arrays of primitive types;
 +    * strings;
 +    * interfaces, derived and nested;
 +    * ?
 +  * separate compiler frontend and backend;
 +  * implement validators;
 +  * implement pack/unpack;
 +    * interfaces;
 +    * optional/mandatory;
 +    * alignment;
 +    * type instantiation and deep referencing;
 +  * test;
 +  * presentation;
etc/users/jcmvbkbc/isl.1281865399.txt.gz · Last modified: 2010/08/15 13:43 by jcmvbkbc