gcc/d/dmd/init.d - gcc - Git at Google

 /**
  * Defines initializers of variables, e.g. the array literal in `int[3] x = [0, 1, 2]`.
  *
  * Copyright:   Copyright (C) 1999-2022 by The D Language Foundation, All Rights Reserved
  * Authors:     $(LINK2 https://www.digitalmars.com, Walter Bright)
  * License:     $(LINK2 https://www.boost.org/LICENSE_1_0.txt, Boost License 1.0)
  * Source:      $(LINK2 https://github.com/dlang/dmd/blob/master/src/dmd/init.d, _init.d)
  * Documentation:  https://dlang.org/phobos/dmd_init.html
  * Coverage:    https://codecov.io/gh/dlang/dmd/src/master/src/dmd/init.d
  */

 module dmd.init;

 import core.stdc.stdio;
 import core.checkedint;

 import dmd.arraytypes;
 import dmd.astenums;
 import dmd.ast_node;
 import dmd.dsymbol;
 import dmd.expression;
 import dmd.globals;
 import dmd.hdrgen;
 import dmd.identifier;
 import dmd.mtype;
 import dmd.common.outbuffer;
 import dmd.root.rootobject;
 import dmd.tokens;
 import dmd.visitor;

 enum NeedInterpret : int
 {
     INITnointerpret,
     INITinterpret,
 }

 alias INITnointerpret = NeedInterpret.INITnointerpret;
 alias INITinterpret = NeedInterpret.INITinterpret;

 /***********************************************************
  */
 extern (C++) class Initializer : ASTNode
 {
     Loc loc;
     InitKind kind;

     override DYNCAST dyncast() const nothrow pure
     {
         return DYNCAST.initializer;
     }


     extern (D) this(const ref Loc loc, InitKind kind)
     {
         this.loc = loc;
         this.kind = kind;
     }

     override final const(char)* toChars() const
     {
         OutBuffer buf;
         HdrGenState hgs;
         .toCBuffer(this, &buf, &hgs);
         return buf.extractChars();
     }

     final inout(ErrorInitializer) isErrorInitializer() inout @nogc nothrow pure
     {
         // Use void* cast to skip dynamic casting call
         return kind == InitKind.error ? cast(inout ErrorInitializer)cast(void*)this : null;
     }

     final inout(VoidInitializer) isVoidInitializer() inout @nogc nothrow pure
     {
         return kind == InitKind.void_ ? cast(inout VoidInitializer)cast(void*)this : null;
     }

     final inout(StructInitializer) isStructInitializer() inout @nogc nothrow pure
     {
         return kind == InitKind.struct_ ? cast(inout StructInitializer)cast(void*)this : null;
     }

     final inout(ArrayInitializer) isArrayInitializer() inout @nogc nothrow pure
     {
         return kind == InitKind.array ? cast(inout ArrayInitializer)cast(void*)this : null;
     }

     final inout(ExpInitializer) isExpInitializer() inout @nogc nothrow pure
     {
         return kind == InitKind.exp ? cast(inout ExpInitializer)cast(void*)this : null;
     }

     final inout(CInitializer) isCInitializer() inout @nogc nothrow pure
     {
         return kind == InitKind.C_ ? cast(inout CInitializer)cast(void*)this : null;
     }

     override void accept(Visitor v)
     {
         v.visit(this);
     }
 }

 /***********************************************************
  */
 extern (C++) final class VoidInitializer : Initializer
 {
     Type type;      // type that this will initialize to

     extern (D) this(const ref Loc loc)
     {
         super(loc, InitKind.void_);
     }

     override void accept(Visitor v)
     {
         v.visit(this);
     }
 }

 /***********************************************************
  */
 extern (C++) final class ErrorInitializer : Initializer
 {
     extern (D) this()
     {
         super(Loc.initial, InitKind.error);
     }

     override void accept(Visitor v)
     {
         v.visit(this);
     }
 }

 /***********************************************************
  */
 extern (C++) final class StructInitializer : Initializer
 {
     Identifiers field;      // of Identifier *'s
     Initializers value;     // parallel array of Initializer *'s

     extern (D) this(const ref Loc loc)
     {
         super(loc, InitKind.struct_);
     }

     extern (D) void addInit(Identifier field, Initializer value)
     {
         //printf("StructInitializer::addInit(field = %p, value = %p)\n", field, value);
         this.field.push(field);
         this.value.push(value);
     }

     override void accept(Visitor v)
     {
         v.visit(this);
     }
 }

 /***********************************************************
  */
 extern (C++) final class ArrayInitializer : Initializer
 {
     Expressions index;      // indices
     Initializers value;     // of Initializer *'s
     uint dim;               // length of array being initialized
     Type type;              // type that array will be used to initialize
     bool sem;               // true if semantic() is run

     extern (D) this(const ref Loc loc)
     {
         super(loc, InitKind.array);
     }

     extern (D) void addInit(Expression index, Initializer value)
     {
         this.index.push(index);
         this.value.push(value);
         dim = 0;
         type = null;
     }

     bool isAssociativeArray() const pure
     {
         foreach (idx; index)
         {
             if (idx)
                 return true;
         }
         return false;
     }

     override void accept(Visitor v)
     {
         v.visit(this);
     }
 }

 /***********************************************************
  */
 extern (C++) final class ExpInitializer : Initializer
 {
     bool expandTuples;
     Expression exp;

     extern (D) this(const ref Loc loc, Expression exp)
     {
         super(loc, InitKind.exp);
         this.exp = exp;
     }

     override void accept(Visitor v)
     {
         v.visit(this);
     }
 }

 /*********************************************
  * Holds the `designator` for C initializers
  */
 struct Designator
 {
     Expression exp;     /// [ constant-expression ]
     Identifier ident;   /// . identifier

     this(Expression exp) { this.exp = exp; }
     this(Identifier ident) { this.ident = ident; }
 }

 /*********************************************
  * Holds the `designation (opt) initializer` for C initializers
  */
 struct DesigInit
 {
     Designators* designatorList; /// designation (opt)
     Initializer initializer;     /// initializer
 }

 /********************************
  * C11 6.7.9 Initialization
  * Represents the C initializer-list
  */
 extern (C++) final class CInitializer : Initializer
 {
     DesigInits initializerList; /// initializer-list
     Type type;              /// type that array will be used to initialize
     bool sem;               /// true if semantic() is run

     extern (D) this(const ref Loc loc)
     {
         super(loc, InitKind.C_);
     }

     override void accept(Visitor v)
     {
         v.visit(this);
     }
 }

 /****************************************
  * Copy the AST for Initializer.
  * Params:
  *      inx = Initializer AST to copy
  * Returns:
  *      the copy
  */
 Initializer syntaxCopy(Initializer inx)
 {
     static Initializer copyStruct(StructInitializer vi)
     {
         auto si = new StructInitializer(vi.loc);
         assert(vi.field.dim == vi.value.dim);
         si.field.setDim(vi.field.dim);
         si.value.setDim(vi.value.dim);
         foreach (const i; 0 .. vi.field.dim)
         {
             si.field[i] = vi.field[i];
             si.value[i] = vi.value[i].syntaxCopy();
         }
         return si;
     }

     static Initializer copyArray(ArrayInitializer vi)
     {
         auto ai = new ArrayInitializer(vi.loc);
         assert(vi.index.dim == vi.value.dim);
         ai.index.setDim(vi.index.dim);
         ai.value.setDim(vi.value.dim);
         foreach (const i; 0 .. vi.value.dim)
         {
             ai.index[i] = vi.index[i] ? vi.index[i].syntaxCopy() : null;
             ai.value[i] = vi.value[i].syntaxCopy();
         }
         return ai;
     }

     static Initializer copyC(CInitializer vi)
     {
         auto ci = new CInitializer(vi.loc);
         ci.initializerList.setDim(vi.initializerList.length);
         foreach (const i; 0 .. vi.initializerList.length)
         {
             DesigInit* cdi = &ci.initializerList[i];
             DesigInit* vdi = &ci.initializerList[i];
             cdi.initializer = vdi.initializer.syntaxCopy();
             if (vdi.designatorList)
             {
                 cdi.designatorList = new Designators();
                 cdi.designatorList.setDim(vdi.designatorList.length);
                 foreach (const j; 0 .. vdi.designatorList.length)
                 {
                     Designator* cdid = &(*cdi.designatorList)[j];
                     Designator* vdid = &(*vdi.designatorList)[j];
                     cdid.exp = vdid.exp ? vdid.exp.syntaxCopy() : null;
                     cdid.ident = vdid.ident;
                 }
             }
         }
         return ci;
     }

     final switch (inx.kind)
     {
         case InitKind.void_:   return new VoidInitializer(inx.loc);
         case InitKind.error:   return inx;
         case InitKind.struct_: return copyStruct(cast(StructInitializer)inx);
         case InitKind.array:   return copyArray(cast(ArrayInitializer)inx);
         case InitKind.exp:     return new ExpInitializer(inx.loc, (cast(ExpInitializer)inx).exp.syntaxCopy());
         case InitKind.C_:      return copyC(cast(CInitializer)inx);
     }
 }
	/**
	* Defines initializers of variables, e.g. the array literal in `int[3] x = [0, 1, 2]`.
	*
	* Copyright: Copyright (C) 1999-2022 by The D Language Foundation, All Rights Reserved
	* Authors: $(LINK2 https://www.digitalmars.com, Walter Bright)
	* License: $(LINK2 https://www.boost.org/LICENSE_1_0.txt, Boost License 1.0)
	* Source: $(LINK2 https://github.com/dlang/dmd/blob/master/src/dmd/init.d, _init.d)
	* Documentation: https://dlang.org/phobos/dmd_init.html
	* Coverage: https://codecov.io/gh/dlang/dmd/src/master/src/dmd/init.d
	*/

	module dmd.init;

	import core.stdc.stdio;
	import core.checkedint;

	import dmd.arraytypes;
	import dmd.astenums;
	import dmd.ast_node;
	import dmd.dsymbol;
	import dmd.expression;
	import dmd.globals;
	import dmd.hdrgen;
	import dmd.identifier;
	import dmd.mtype;
	import dmd.common.outbuffer;
	import dmd.root.rootobject;
	import dmd.tokens;
	import dmd.visitor;

	enum NeedInterpret : int
	{
	INITnointerpret,
	INITinterpret,
	}

	alias INITnointerpret = NeedInterpret.INITnointerpret;
	alias INITinterpret = NeedInterpret.INITinterpret;

	/***********************************************************
	*/
	extern (C++) class Initializer : ASTNode
	{
	Loc loc;
	InitKind kind;

	override DYNCAST dyncast() const nothrow pure
	{
	return DYNCAST.initializer;
	}


	extern (D) this(const ref Loc loc, InitKind kind)
	{
	this.loc = loc;
	this.kind = kind;
	}

	override final const(char)* toChars() const
	{
	OutBuffer buf;
	HdrGenState hgs;
	.toCBuffer(this, &buf, &hgs);
	return buf.extractChars();
	}

	final inout(ErrorInitializer) isErrorInitializer() inout @nogc nothrow pure
	{
	// Use void* cast to skip dynamic casting call
	return kind == InitKind.error ? cast(inout ErrorInitializer)cast(void*)this : null;
	}

	final inout(VoidInitializer) isVoidInitializer() inout @nogc nothrow pure
	{
	return kind == InitKind.void_ ? cast(inout VoidInitializer)cast(void*)this : null;
	}

	final inout(StructInitializer) isStructInitializer() inout @nogc nothrow pure
	{
	return kind == InitKind.struct_ ? cast(inout StructInitializer)cast(void*)this : null;
	}

	final inout(ArrayInitializer) isArrayInitializer() inout @nogc nothrow pure
	{
	return kind == InitKind.array ? cast(inout ArrayInitializer)cast(void*)this : null;
	}

	final inout(ExpInitializer) isExpInitializer() inout @nogc nothrow pure
	{
	return kind == InitKind.exp ? cast(inout ExpInitializer)cast(void*)this : null;
	}

	final inout(CInitializer) isCInitializer() inout @nogc nothrow pure
	{
	return kind == InitKind.C_ ? cast(inout CInitializer)cast(void*)this : null;
	}

	override void accept(Visitor v)
	{
	v.visit(this);
	}
	}

	/***********************************************************
	*/
	extern (C++) final class VoidInitializer : Initializer
	{
	Type type; // type that this will initialize to

	extern (D) this(const ref Loc loc)
	{
	super(loc, InitKind.void_);
	}

	override void accept(Visitor v)
	{
	v.visit(this);
	}
	}

	/***********************************************************
	*/
	extern (C++) final class ErrorInitializer : Initializer
	{
	extern (D) this()
	{
	super(Loc.initial, InitKind.error);
	}

	override void accept(Visitor v)
	{
	v.visit(this);
	}
	}

	/***********************************************************
	*/
	extern (C++) final class StructInitializer : Initializer
	{
	Identifiers field; // of Identifier *'s
	Initializers value; // parallel array of Initializer *'s

	extern (D) this(const ref Loc loc)
	{
	super(loc, InitKind.struct_);
	}

	extern (D) void addInit(Identifier field, Initializer value)
	{
	//printf("StructInitializer::addInit(field = %p, value = %p)\n", field, value);
	this.field.push(field);
	this.value.push(value);
	}

	override void accept(Visitor v)
	{
	v.visit(this);
	}
	}

	/***********************************************************
	*/
	extern (C++) final class ArrayInitializer : Initializer
	{
	Expressions index; // indices
	Initializers value; // of Initializer *'s
	uint dim; // length of array being initialized
	Type type; // type that array will be used to initialize
	bool sem; // true if semantic() is run

	extern (D) this(const ref Loc loc)
	{
	super(loc, InitKind.array);
	}

	extern (D) void addInit(Expression index, Initializer value)
	{
	this.index.push(index);
	this.value.push(value);
	dim = 0;
	type = null;
	}

	bool isAssociativeArray() const pure
	{
	foreach (idx; index)
	{
	if (idx)
	return true;
	}
	return false;
	}

	override void accept(Visitor v)
	{
	v.visit(this);
	}
	}

	/***********************************************************
	*/
	extern (C++) final class ExpInitializer : Initializer
	{
	bool expandTuples;
	Expression exp;

	extern (D) this(const ref Loc loc, Expression exp)
	{
	super(loc, InitKind.exp);
	this.exp = exp;
	}

	override void accept(Visitor v)
	{
	v.visit(this);
	}
	}

	/*********************************************
	* Holds the `designator` for C initializers
	*/
	struct Designator
	{
	Expression exp; /// [ constant-expression ]
	Identifier ident; /// . identifier

	this(Expression exp) { this.exp = exp; }
	this(Identifier ident) { this.ident = ident; }
	}

	/*********************************************
	* Holds the `designation (opt) initializer` for C initializers
	*/
	struct DesigInit
	{
	Designators* designatorList; /// designation (opt)
	Initializer initializer; /// initializer
	}

	/********************************
	* C11 6.7.9 Initialization
	* Represents the C initializer-list
	*/
	extern (C++) final class CInitializer : Initializer
	{
	DesigInits initializerList; /// initializer-list
	Type type; /// type that array will be used to initialize
	bool sem; /// true if semantic() is run

	extern (D) this(const ref Loc loc)
	{
	super(loc, InitKind.C_);
	}

	override void accept(Visitor v)
	{
	v.visit(this);
	}
	}

	/****************************************
	* Copy the AST for Initializer.
	* Params:
	* inx = Initializer AST to copy
	* Returns:
	* the copy
	*/
	Initializer syntaxCopy(Initializer inx)
	{
	static Initializer copyStruct(StructInitializer vi)
	{
	auto si = new StructInitializer(vi.loc);
	assert(vi.field.dim == vi.value.dim);
	si.field.setDim(vi.field.dim);
	si.value.setDim(vi.value.dim);
	foreach (const i; 0 .. vi.field.dim)
	{
	si.field[i] = vi.field[i];
	si.value[i] = vi.value[i].syntaxCopy();
	}
	return si;
	}

	static Initializer copyArray(ArrayInitializer vi)
	{
	auto ai = new ArrayInitializer(vi.loc);
	assert(vi.index.dim == vi.value.dim);
	ai.index.setDim(vi.index.dim);
	ai.value.setDim(vi.value.dim);
	foreach (const i; 0 .. vi.value.dim)
	{
	ai.index[i] = vi.index[i] ? vi.index[i].syntaxCopy() : null;
	ai.value[i] = vi.value[i].syntaxCopy();
	}
	return ai;
	}

	static Initializer copyC(CInitializer vi)
	{
	auto ci = new CInitializer(vi.loc);
	ci.initializerList.setDim(vi.initializerList.length);
	foreach (const i; 0 .. vi.initializerList.length)
	{
	DesigInit* cdi = &ci.initializerList[i];
	DesigInit* vdi = &ci.initializerList[i];
	cdi.initializer = vdi.initializer.syntaxCopy();
	if (vdi.designatorList)
	{
	cdi.designatorList = new Designators();
	cdi.designatorList.setDim(vdi.designatorList.length);
	foreach (const j; 0 .. vdi.designatorList.length)
	{
	Designator* cdid = &(*cdi.designatorList)[j];
	Designator* vdid = &(*vdi.designatorList)[j];
	cdid.exp = vdid.exp ? vdid.exp.syntaxCopy() : null;
	cdid.ident = vdid.ident;
	}
	}
	}
	return ci;
	}

	final switch (inx.kind)
	{
	case InitKind.void_: return new VoidInitializer(inx.loc);
	case InitKind.error: return inx;
	case InitKind.struct_: return copyStruct(cast(StructInitializer)inx);
	case InitKind.array: return copyArray(cast(ArrayInitializer)inx);
	case InitKind.exp: return new ExpInitializer(inx.loc, (cast(ExpInitializer)inx).exp.syntaxCopy());
	case InitKind.C_: return copyC(cast(CInitializer)inx);
	}
	}