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/*
*/
#pragma once
#include <memory>
#include <hir/pattern.hpp>
#include <hir/type.hpp>
namespace HIR {
class ExprVisitor;
class ExprNode
{
public:
virtual void visit(ExprVisitor& v) = 0;
virtual ~ExprNode();
};
typedef ::std::unique_ptr<ExprNode> ExprNodeP;
#define NODE_METHODS() \
virtual void visit(ExprVisitor& nv) override;
struct ExprNode_Block:
public ExprNode
{
bool m_is_unsafe;
::std::vector< ExprNodeP > m_nodes;
::std::vector< ::HIR::SimplePath> m_traits;
ExprNode_Block():
m_is_unsafe(false)
{}
ExprNode_Block(bool is_unsafe, ::std::vector<ExprNodeP> nodes):
m_is_unsafe(is_unsafe),
m_nodes( mv$(nodes) )
{}
NODE_METHODS();
};
struct ExprNode_Return:
public ExprNode
{
::HIR::ExprNodeP m_value;
ExprNode_Return(::HIR::ExprNodeP v):
m_value( mv$(m_value) )
{}
NODE_METHODS();
};
struct ExprNode_Loop:
public ExprNode
{
::std::string m_label;
::HIR::ExprNodeP m_code;
ExprNode_Loop(::std::string label, ::HIR::ExprNodeP code):
m_label( mv$(label) ),
m_code( mv$(code) )
{}
NODE_METHODS();
};
struct ExprNode_LoopControl:
public ExprNode
{
::std::string m_label;
bool m_continue;
//::HIR::ExprNodeP m_value;
ExprNode_LoopControl(::std::string label, bool cont):
m_label( mv$(label) ),
m_continue( cont )
{}
NODE_METHODS();
};
struct ExprNode_Let:
public ExprNode
{
::HIR::Pattern m_pattern;
::HIR::TypeRef m_type;
::HIR::ExprNodeP m_value;
ExprNode_Let(::HIR::Pattern pat, ::HIR::TypeRef ty, ::HIR::ExprNodeP val):
m_pattern( mv$(pat) ),
m_type( mv$(ty) ),
m_value( mv$(val) )
{}
NODE_METHODS();
};
struct ExprNode_Match:
public ExprNode
{
struct Arm
{
::std::vector< ::HIR::Pattern> m_patterns;
::HIR::ExprNodeP m_cond;
::HIR::ExprNodeP m_code;
};
::HIR::ExprNodeP m_value;
::std::vector<Arm> m_arms;
ExprNode_Match(::HIR::ExprNodeP val, ::std::vector<Arm> arms):
m_value( mv$(val) ),
m_arms( mv$(arms) )
{}
NODE_METHODS();
};
struct ExprNode_If:
public ExprNode
{
::HIR::ExprNodeP m_cond;
::HIR::ExprNodeP m_true;
::HIR::ExprNodeP m_false;
ExprNode_If(::HIR::ExprNodeP cond, ::HIR::ExprNodeP true_code, ::HIR::ExprNodeP false_code):
m_cond( mv$(cond) ),
m_true( mv$(true_code) ),
m_false( mv$(false_code) )
{}
NODE_METHODS();
};
struct ExprNode_Assign:
public ExprNode
{
enum class Op {
None,
Add, Sub,
Mul, Div, Mod,
And, Or , Xor,
Shr, Shl,
};
Op m_op;
ExprNodeP m_slot;
ExprNodeP m_value;
ExprNode_Assign(Op op, ::HIR::ExprNodeP slot, ::HIR::ExprNodeP value):
m_op(op),
m_slot( mv$(slot) ),
m_value( mv$(value) )
{}
NODE_METHODS();
};
struct ExprNode_BinOp:
public ExprNode
{
enum class Op {
CmpEqu,
CmpNEqu,
CmpLt,
CmpLtE,
CmpGt,
CmpGtE,
BoolAnd,
BoolOr,
Add, Sub,
Mul, Div, Mod,
And, Or , Xor,
Shr, Shl,
};
Op m_op;
::HIR::ExprNodeP m_left;
::HIR::ExprNodeP m_right;
ExprNode_BinOp() {}
ExprNode_BinOp(Op op, ::HIR::ExprNodeP left, ::HIR::ExprNodeP right):
m_op(op),
m_left( mv$(left) ),
m_right( mv$(right) )
{}
NODE_METHODS();
};
struct ExprNode_UniOp:
public ExprNode
{
enum class Op {
Ref, // '& <expr>'
RefMut, // '&mut <expr>'
Invert, // '!<expr>'
Negate, // '-<expr>'
};
Op m_op;
::HIR::ExprNodeP m_value;
ExprNode_UniOp(Op op, ::HIR::ExprNodeP value):
m_op(op),
m_value( mv$(value) )
{}
NODE_METHODS();
};
struct ExprNode_Cast:
public ExprNode
{
::HIR::ExprNodeP m_value;
::HIR::TypeRef m_type;
ExprNode_Cast(::HIR::ExprNodeP value, ::HIR::TypeRef dst_type):
m_value( mv$(value) ),
m_type( mv$(dst_type) )
{}
NODE_METHODS();
};
struct ExprNode_Index:
public ExprNode
{
::HIR::ExprNodeP m_val;
::HIR::ExprNodeP m_index;
ExprNode_Index(::HIR::ExprNodeP val, ::HIR::ExprNodeP index):
m_val( mv$(val) ),
m_index( mv$(index) )
{}
NODE_METHODS();
};
struct ExprNode_Deref:
public ExprNode
{
::HIR::ExprNodeP m_val;
ExprNode_Deref(::HIR::ExprNodeP val):
m_val( mv$(val) )
{}
NODE_METHODS();
};
struct ExprNode_CallPath:
public ExprNode
{
::HIR::Path m_path;
::std::vector<ExprNodeP> m_args;
ExprNode_CallPath(::HIR::Path path, ::std::vector< ::HIR::ExprNodeP> args):
m_path( mv$(path) ),
m_args( mv$(args) )
{}
NODE_METHODS();
};
struct ExprNode_CallValue:
public ExprNode
{
::HIR::ExprNodeP m_val;
::std::vector<ExprNodeP> m_args;
ExprNode_CallValue(::HIR::ExprNodeP val, ::std::vector< ::HIR::ExprNodeP> args):
m_val( mv$(val) ),
m_args( mv$(args) )
{}
NODE_METHODS();
};
struct ExprNode_CallMethod:
public ExprNode
{
::HIR::ExprNodeP m_val;
::std::string m_method;
::HIR::PathParams m_params;
::std::vector< ::HIR::ExprNodeP> m_args;
ExprNode_CallMethod() {}
ExprNode_CallMethod(::HIR::ExprNodeP val, ::std::string method_name, ::HIR::PathParams params, ::std::vector< ::HIR::ExprNodeP> args):
m_val( mv$(val) ),
m_method( mv$(method_name) ),
m_params( mv$(params) ),
m_args( mv$(args) )
{
}
NODE_METHODS();
};
struct ExprNode_Field:
public ExprNode
{
::HIR::ExprNodeP m_val;
::std::string m_field;
ExprNode_Field(::HIR::ExprNodeP val, ::std::string field):
m_val( mv$(val) ),
m_field( mv$(field) )
{}
NODE_METHODS();
};
struct ExprNode_Literal:
public ExprNode
{
TAGGED_UNION(Data, Integer,
(Integer, struct {
::HIR::CoreType m_type; // if not an integer type, it's unknown
uint64_t m_value;
}),
(Float, struct {
::HIR::CoreType m_type; // If not a float type, it's unknown
double m_value;
}),
(Boolean, bool),
(String, ::std::string),
(ByteString, ::std::vector<char>)
);
Data m_data;
ExprNode_Literal(Data data):
m_data( mv$(data) )
{}
NODE_METHODS();
};
struct ExprNode_PathValue:
public ExprNode
{
::HIR::Path m_path;
ExprNode_PathValue(::HIR::Path path):
m_path( mv$(path) )
{}
NODE_METHODS();
};
struct ExprNode_Variable:
public ExprNode
{
::std::string m_name;
unsigned int m_slot;
ExprNode_Variable(::std::string name, unsigned int slot):
m_name( mv$(name) ),
m_slot( slot )
{}
NODE_METHODS();
};
struct ExprNode_StructLiteral:
public ExprNode
{
typedef ::std::vector< ::std::pair< ::std::string, ExprNodeP > > t_values;
::HIR::GenericPath m_path;
::HIR::ExprNodeP m_base_value;
t_values m_values;
ExprNode_StructLiteral(::HIR::GenericPath path, ::HIR::ExprNodeP base_value, t_values values):
m_path( mv$(path) ),
m_base_value( mv$(base_value) ),
m_values( mv$(values) )
{}
NODE_METHODS();
};
struct ExprNode_Tuple:
public ExprNode
{
::std::vector< ::HIR::ExprNodeP> m_vals;
ExprNode_Tuple(::std::vector< ::HIR::ExprNodeP> vals):
m_vals( mv$(vals) )
{}
NODE_METHODS();
};
struct ExprNode_ArrayList:
public ExprNode
{
::std::vector< ::HIR::ExprNodeP> m_vals;
ExprNode_ArrayList(::std::vector< ::HIR::ExprNodeP> vals):
m_vals( mv$(vals) )
{}
NODE_METHODS();
};
struct ExprNode_ArraySized:
public ExprNode
{
::HIR::ExprNodeP m_val;
::HIR::ExprNodeP m_size; // TODO: Has to be constant
ExprNode_ArraySized(::HIR::ExprNodeP val, ::HIR::ExprNodeP size):
m_val( mv$(val) ),
m_size( mv$(size) )
{}
NODE_METHODS();
};
#undef NODE_METHODS
class ExprVisitor
{
public:
#define NV(nt) virtual void visit(nt& n) = 0;
NV(ExprNode_Block)
NV(ExprNode_Return)
NV(ExprNode_Let)
NV(ExprNode_Loop)
NV(ExprNode_LoopControl)
NV(ExprNode_Match)
NV(ExprNode_If)
NV(ExprNode_Assign)
NV(ExprNode_BinOp)
NV(ExprNode_UniOp)
NV(ExprNode_Cast)
NV(ExprNode_Index)
NV(ExprNode_Deref)
NV(ExprNode_CallPath);
NV(ExprNode_CallValue);
NV(ExprNode_CallMethod);
NV(ExprNode_Field);
NV(ExprNode_Literal);
NV(ExprNode_PathValue);
NV(ExprNode_Variable);
NV(ExprNode_StructLiteral);
NV(ExprNode_Tuple);
NV(ExprNode_ArrayList);
NV(ExprNode_ArraySized);
};
}
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