dmd.dtemplate
Source dtemplate.d
Documentation https://dlang.org/phobos/dmd_dtemplate.html
- inout(Expression)
isExpression
(inout RootObjecto
); - These functions substitute for dynamic_cast. dynamic_cast does not work on earlier versions of gcc.
- bool
isError
(const RootObjecto
); - Is this Object an error?
- bool
arrayObjectIsError
(const Objects*args
); - Are any of the Objects an error?
- inout(Type)
getType
(inout RootObjecto
); - Try to get arg as a type.
- class
TemplateDeclaration
: dmd.dsymbol.ScopeDsymbol; -
- int
inuse
; - for recursive expansion detection
- bool
overloadInsert
(Dsymbols
); - Overload existing TemplateDeclaration 'this' with the new one 's'. Return true if successful; i.e. no conflict.
- bool
evaluateConstraint
(TemplateInstanceti
, Scope*sc
, Scope*paramscope
, Objects*dedargs
, FuncDeclarationfd
); - Check to see if constraint is satisfied.
- MATCH
matchWithInstance
(Scope*sc
, TemplateInstanceti
, Objects*dedtypes
, Expressions*fargs
, intflag
); - Given that ti is an instance of this TemplateDeclaration, deduce the types of the parameters to this, and store those deduced types in dedtypes[].
Input flag 1: don't do semantic() because of dummy types 2: don't change types in matchArg()
Output dedtypes deduced arguments Return match level.
- MATCH
leastAsSpecialized
(Scope*sc
, TemplateDeclarationtd2
, Expressions*fargs
); - Determine partial specialization order of 'this' vs td2.Returns:match this is at least as specialized as td2 0 td2 is more specialized than this
- MATCH
deduceFunctionTemplateMatch
(TemplateInstanceti
, Scope*sc
, ref FuncDeclarationfd
, Typetthis
, Expressions*fargs
); - Match function arguments against a specific template function.
Input ti sc instantiation scope fd tthis 'this' argument if !NULL fargs arguments to function
Output fd Partially instantiated function declaration ti.tdtypes Expression/Type deduced template arguments
Returns:match level bit 0-3 Match template parameters by inferred template arguments bit 4-7 Match template parameters by initial template arguments - RootObject
declareParameter
(Scope*sc
, TemplateParametertp
, RootObjecto
); - Declare template parameter tp with value o, and install it in the scope sc.
- FuncDeclaration
doHeaderInstantiation
(TemplateInstanceti
, Scope*sc2
, FuncDeclarationfd
, Typetthis
, Expressions*fargs
); - Limited function template instantiation for using fd.leastAsSpecialized()
- TemplateInstance
findExistingInstance
(TemplateInstancetithis
, Expressions*fargs
); - Given a new instance tithis of this TemplateDeclaration, see if there already exists an instance. If so, return that existing instance.
- TemplateInstance
addInstance
(TemplateInstanceti
); - Add instance ti to TemplateDeclaration's table of instances. Return a handle we can use to later remove it if it fails instantiation.
- void
removeInstance
(TemplateInstanceti
); - Remove TemplateInstance from table of instances.
Input handle returned by addInstance()
- TemplateTupleParameter
isVariadic
(); - Check if the last template parameter is a tuple one, and returns it if so, else returns null.Returns:The last template parameter if it's a TemplateTupleParameter
- bool
isOverloadable
(); - We can overload templates.
- void
functionResolve
(Match*m
, Dsymboldstart
, Locloc
, Scope*sc
, Objects*tiargs
, Typetthis
, Expressions*fargs
, const(char)**pMessage
= null); - Given function arguments, figure out which template function to expand, and return matching result.Parameters:
Match* m
matching result Dsymbol dstart
the root of overloaded function templates Loc loc
instantiation location Scope* sc
instantiation scope Objects* tiargs
initial list of template arguments Type tthis
if !NULL, the 'this' pointer argument Expressions* fargs
arguments to function const(char)** pMessage
address to store error message, or null - bool
reliesOnTident
(Typet
, TemplateParameters*tparams
= null, size_tiStart
= 0); - Check whether the type t representation relies on one or more the template parameters.Parameters:
Type t
Tested type, if null, returns false. TemplateParameters* tparams
Template parameters. size_t iStart
Start index of tparams to limit the tested parameters. If it's nonzero, tparams[0..iStart] will be excluded from the test target. - abstract class
TemplateParameter
; -
- MATCH
matchArg
(LocinstLoc
, Scope*sc
, Objects*tiargs
, size_ti
, TemplateParameters*parameters
, Objects*dedtypes
, Declaration*psparam
); - Match to a particular TemplateParameter.
Input instLoc location that the template is instantiated. tiargs[] actual arguments to template instance i i'th argument parameters[] template parameters dedtypes[] deduced arguments to template instance *psparam set to symbol declared and initialized to dedtypes[i]
- class
TemplateTypeParameter
: dmd.dtemplate.TemplateParameter; Syntax ident : specType = defaultType
- class
TemplateThisParameter
: dmd.dtemplate.TemplateTypeParameter; Syntax this ident : specType = defaultType
- class
TemplateValueParameter
: dmd.dtemplate.TemplateParameter; Syntax valType ident : specValue = defaultValue
- class
TemplateAliasParameter
: dmd.dtemplate.TemplateParameter; Syntax specType ident : specAlias = defaultAlias
- class
TemplateTupleParameter
: dmd.dtemplate.TemplateParameter; Syntax ident ...
- class
TemplateInstance
: dmd.dsymbol.ScopeDsymbol; Given foo!(args) => name = foo tiargs = args
- this(ref const Loc
loc
, TemplateDeclarationtd
, Objects*tiargs
); - This constructor is only called when we figured out which function template to instantiate.
- final void
printInstantiationTrace
(); - Given an error instantiating the TemplateInstance, give the nested TemplateInstance instantiations that got us here. Those are a list threaded into the nested scopes.
- final Identifier
getIdent
(); - Lazily generate identifier for template instance. This is because 75% of the ident's are never needed.
- final int
compare
(RootObjecto
); - Compare proposed template instantiation with existing template instantiation. Note that this is not commutative because of the auto ref check.Parameters:
RootObject o
existing template instantiation Returns:0 for match, 1 for no match - final bool
needsCodegen
(); - Returns true if this is not instantiated in non-root module, and is a part of non-speculative instantiatiation.
Note minst does not stabilize until semantic analysis is completed, so don't call this function during semantic analysis to return precise result.
- final bool
findTempDecl
(Scope*sc
, WithScopeSymbol*pwithsym
); - Find template declaration corresponding to template instance.Returns:false if finding fails.
Note This function is reentrant against error occurrence. If returns false, any members of this object won't be modified, and repetition call will reproduce same error.
- final bool
updateTempDecl
(Scope*sc
, Dsymbols
); - Confirm s is a valid template, then store it.
Input sc s candidate symbol of template. It may be: TemplateDeclaration FuncDeclaration with findTemplateDeclRoot() != NULL OverloadSet which contains candidates
Returns:true if updating succeeds. - static bool
semanticTiargs
(ref const Locloc
, Scope*sc
, Objects*tiargs
, intflags
); - Run semantic of tiargs as arguments of template.
Input loc sc tiargs array of template arguments flags 1: replace const variables with their initializers 2: don't devolve Parameter to Type
Returns:false if one or more arguments have errors. - final bool
semanticTiargs
(Scope*sc
); - Run semantic on the elements of tiargs.
Input sc
Returns:false if one or more arguments have errors.Note This function is reentrant against error occurrence. If returns false, all elements of tiargs won't be modified.
- final bool
needsTypeInference
(Scope*sc
, intflag
= 0); - Determine if template instance is really a template function, and that template function needs to infer types from the function arguments.Like findBestMatch, iterate possible template candidates, but just looks only the necessity of type inference.
- final bool
hasNestedArgs
(Objects*args
, boolisstatic
); - Determines if a TemplateInstance will need a nested generation of the TemplateDeclaration. Sets enclosing property if so, and returns != 0;
- final Dsymbols*
appendToModuleMember
(); - Append 'this' to the specific module members[]
- final void
declareParameters
(Scope*sc
); - Declare parameters of template instance, initialize them with the template instance arguments.
- final Identifier
genIdent
(Objects*args
); - This instance needs an identifier for name mangling purposes. Create one by taking the template declaration name and adding the type signature for it.
- void
unSpeculative
(Scope*sc
, RootObjecto
); - IsExpression can evaluate the specified type speculatively, and even if it instantiates any symbols, they are normally unnecessary for the final executable. However, if those symbols leak to the actual code, compiler should remark them as non-speculative to generate their code and link to the final executable.
- bool
definitelyValueParameter
(Expressione
); - Return true if e could be valid only as a template value parameter. Return false if it might be an alias or tuple. (Note that even in this case, it could still turn out to be a value).
- class
TemplateMixin
: dmd.dtemplate.TemplateInstance; - struct
TemplateInstanceBox
; - This struct is needed for TemplateInstance to be the key in an associative array. Fixing https://issues.dlang.org/show_bug.cgi?id=15812 and https://issues.dlang.org/show_bug.cgi?id=15813 would make it unnecessary.