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dmd.dcast

Compiler implementation of the D programming language.
Authors:

Source dcast.d

Expression implicitCastTo(Expression e, Scope* sc, Type t);
Do an implicit cast. Issue error if it can't be done.
MATCH implicitConvTo(Expression e, Type t);
Return MATCH level of implicitly converting e to type t. Don't do the actual cast; don't change e.
Expression castTo(Expression e, Scope* sc, Type t);
Do an explicit cast. Assume that the 'this' expression does not have any indirections.
Expression inferType(Expression e, Type t, int flag = 0);
Set type inference target t Target type flag 1: don't put an error when inference fails
Expression scaleFactor(BinExp be, Scope* sc);
Scale addition/subtraction to/from pointer.
bool typeMerge(Scope* sc, TOK op, Type* pt, Expression* pe1, Expression* pe2);
Combine types.

Output *pt merged type, if *pt is not NULL *pe1 rewritten e1 *pe2 rewritten e2

Returns:
true success false failed
Expression typeCombine(BinExp be, Scope* sc);
Bring leaves to common type.
Returns:
null on success, ErrorExp if error occurs
Expression integralPromotions(Expression e, Scope* sc);
Do integral promotions (convertchk). Don't convert to
void fix16997(Scope* sc, UnaExp ue);
This provides a transition from the non-promoting behavior of unary + - ~ to the C-like integral promotion behavior.
Parameters:
Scope* sc context
UnaExp ue NegExp, UAddExp, or ComExp which is revised per rules
bool arrayTypeCompatible(Loc loc, Type t1, Type t2);
See if both types are arrays that can be compared for equality. Return true if so. If they are arrays, but incompatible, issue error. This is to enable comparing things like an immutable array with a mutable one.
bool arrayTypeCompatibleWithoutCasting(Loc loc, Type t1, Type t2);
See if both types are arrays that can be compared for equality without any casting. Return true if so. This is to enable comparing things like an immutable array with a mutable one.
IntRange getIntRange(Expression e);