+++ /dev/null
-# This file is part of NIT ( http://www.nitlanguage.org ).
-#
-# Copyright 2009 Jean Privat <jean@pryen.org>
-#
-# Licensed under the Apache License, Version 2.0 (the "License");
-# you may not use this file except in compliance with the License.
-# You may obtain a copy of the License at
-#
-# http://www.apache.org/licenses/LICENSE-2.0
-#
-# Unless required by applicable law or agreed to in writing, software
-# distributed under the License is distributed on an "AS IS" BASIS,
-# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
-# See the License for the specific language governing permissions and
-# limitations under the License.
-
-# Things needed by typing.nit to generate intermediate code from AST
-package icode_generation
-
-import icode
-import syntax_base
-private import typing
-private import primitive_info
-
-# An AST2ICode context stores the currently built icode informations
-class A2IContext
-special ICodeBuilder
- redef fun stmt(s: ICode)
- do
- if _current_node != null then
- current_location = _current_node.location
- else if visitor.current_node != null then
- current_location = visitor.current_node.location
- end
- super
- end
-
- # Prepare a new array of length item
- fun add_new_array(stype: MMType, length: Int): IRegister
- do
- var prop = visitor.get_method(stype, once "with_capacity".to_symbol)
- var ni = expr(new INative("TAG_Int({length})", null), visitor.type_int)
- return expr(new INew(stype, prop, [ni]), stype)
- end
-
- # Add an array add
- fun add_call_array_add(recv, item: IRegister)
- do
- var stype = recv.stype
- var prop = visitor.get_method(stype, once "add".to_symbol)
- stmt(new ICall(prop, [recv, item]))
- end
-
- # Get the iregister associated with a variable
- # Or assign one if none exists
- fun variable(v: Variable): IRegister
- do
- if _variables.has_key(v) then
- return _variables[v]
- else
- var reg = new_register(v.stype.as(not null))
- _variables[v] = reg
- return reg
- end
- end
-
- # Current registered variable
- var _variables: HashMap[Variable, IRegister] = new HashMap[Variable, IRegister]
-
- # Current registered closurevariables
- readable var _closurevariables: HashMap[ClosureVariable, IClosureDecl] = new HashMap[ClosureVariable, IClosureDecl]
-
- # The current syntax visitor
- readable var _visitor: AbsSyntaxVisitor
-
- # Where a nit return must branch
- readable writable var _return_seq: nullable ISeq
-
- # Register where a functionnal nit return must store its value
- readable writable var _return_value: nullable IRegister
-
- init(visitor: AbsSyntaxVisitor, r: IRoutine, m: nullable MMMethod)
- do
- super(visitor.module, r, m)
- _visitor = visitor
- _return_seq = r.body
- _return_value = r.result
- end
-
- # Insert implicit super init calls
- fun invoke_super_init_calls_after(start_prop: nullable MMMethod)
- do
- var p = method
- assert p isa MMSrcMethod
- var n = p.node
- assert n isa AConcreteInitPropdef
-
- if n.super_init_calls.is_empty then return
- var i = 0
- var j = 0
- if start_prop != null then
- while n.super_init_calls[i] != start_prop do
- i += 1
- end
- i += 1
-
- while n.explicit_super_init_calls[j] != start_prop do
- j += 1
- end
- j += 1
- end
- var stop_prop: nullable MMMethod = null
- if j < n.explicit_super_init_calls.length then
- stop_prop = n.explicit_super_init_calls[j]
- end
- var l = n.super_init_calls.length
- while i < l do
- var sp = n.super_init_calls[i]
- if sp == stop_prop then break
- var cargs = new Array[IRegister]
- if sp.signature.arity == 0 then
- cargs.add(iroutine.params.first)
- else
- for va in iroutine.params do
- cargs.add(va)
- end
- end
- stmt(new ICall(sp, cargs))
- i += 1
- end
- end
-
- # The current AExpr
- var _current_node: nullable AExpr = null
-
- # Generate icode in the current sequence from a statement
- fun generate_stmt(n: nullable AExpr)
- do
- if n == null then return
- var old = _current_node
- _current_node = n
- n.generate_icode(self)
- _current_node = old
- end
-
- # Generate icode in the current sequence from an expression
- fun generate_expr(n: AExpr): IRegister
- do
- var old = _current_node
- _current_node = n
- var reg = n.generate_icode(self).as(not null)
- _current_node = old
- return reg
- end
-end
-
-redef class EscapableBlock
- # Where a nit break must branch
- readable writable var _break_seq: nullable ISeq
-
- # Where a nit continue must branch
- readable writable var _continue_seq: nullable ISeq
-
- # Register where a functionnal nit break must store its value
- readable writable var _break_value: nullable IRegister
-
- # Register where a functionnal nit continue must store its value
- readable writable var _continue_value: nullable IRegister
-end
-
-redef class MMSrcModule
- # Generate icode for method bodies
- fun generate_icode(tc: ToolContext)
- do
- var v = new A2IVisitor(tc, self)
- for c in src_local_classes do
- for p in c.src_local_properties do
- if p isa MMSrcMethod then
- p.generate_iroutine(v)
- else if p isa MMSrcAttribute then
- p.generate_iroutine(v)
- end
- end
- end
- end
-end
-
-redef class MMSrcAttribute
- redef readable writable var _iroutine: nullable IRoutine
-
- # Generate the initialization iroutine
- fun generate_iroutine(visitor: A2IVisitor)
- do
- if node.n_expr != null then
- var iroutine = signature.generate_empty_iroutine
- iroutine.location = node.location
- var v = new A2IContext(visitor, iroutine, null)
- visitor.icode_ctx = v
- visitor.enter_visit(node)
- visitor.icode_ctx = null
- _iroutine = iroutine
- end
- end
-end
-
-redef class MMSrcMethod
- redef readable writable var _iroutine: nullable IRoutine
-
- # Generate the body iroutine
- fun generate_iroutine(visitor: A2IVisitor)
- do
- var iroutine = signature.generate_empty_iroutine
- if node != null then
- iroutine.location = node.location
- end
- var v = new A2IContext(visitor, iroutine, self)
- visitor.icode_ctx = v
- inner_generate_iroutine(v)
- visitor.icode_ctx = null
- _iroutine = iroutine
- end
-
- # Generate the body iroutine (specific part)
- fun inner_generate_iroutine(v: A2IContext) is abstract
-end
-
-redef class MMReadImplementationMethod
- redef fun inner_generate_iroutine(v)
- do
- var e = v.add_attr_read(node.prop, v.iroutine.params.first)
- v.add_return_value(e)
- end
-end
-
-redef class MMWriteImplementationMethod
- redef fun inner_generate_iroutine(v)
- do
- var params = v.iroutine.params
- v.stmt(new IAttrWrite(node.prop, params[0], params[1]))
- end
-end
-
-redef class MMMethSrcMethod
- redef fun inner_generate_iroutine(v)
- do
- v.visitor.enter_visit(node)
- end
-end
-
-redef class MMImplicitInit
- redef fun inner_generate_iroutine(v)
- do
- var params = v.iroutine.params
- var f = params.length - unassigned_attributes.length
- var recv = params.first
- for sp in super_inits do
- assert sp isa MMMethod
- var args_recv = [recv]
- if sp == super_init then
- var args = new Array[IRegister].with_capacity(f)
- args.add(recv)
- for i in [1..f[ do
- args.add(params[i])
- end
- v.stmt(new ICall(sp, args))
- else
- v.stmt(new ICall(sp, args_recv))
- end
- end
- for i in [f..params.length[ do
- var attribute = unassigned_attributes[i-f]
- v.stmt(new IAttrWrite(attribute, recv, params[i]))
- end
- end
-end
-
-class A2IVisitor
-special AbsSyntaxVisitor
- writable var _icode_ctx: nullable A2IContext
- fun icode_ctx: A2IContext do return _icode_ctx.as(not null)
- redef fun visit(n) do n.accept_icode_generation(self)
- init(tc, m) do super
-end
-
-
-###############################################################################
-
-redef class ANode
- fun accept_icode_generation(v: A2IVisitor) do accept_abs_syntax_visitor(v) end
-end
-
-redef class AAttrPropdef
- redef fun accept_icode_generation(vv)
- do
- var v = vv.icode_ctx
- v.stmt(new IMove(v.variable(self_var), v.iroutine.params.first))
- super
- var ne = n_expr
- if ne != null then
- v.stmt(new IMove(v.iroutine.result.as(not null), v.generate_expr(ne)))
- end
- end
-end
-
-redef class AMethPropdef
- redef fun accept_icode_generation(vv)
- do
- super
- fill_iroutine(vv.icode_ctx, method)
- end
-
- # Compile the method body common preambule (before specific body stuff if any)
- fun fill_iroutine(v: A2IContext, method: MMSrcMethod) is abstract
-end
-
-redef class ASignature
- fun fill_iroutine_parameters(v: A2IContext, orig_sig: MMSignature, params: Sequence[IRegister], closdecls: nullable Sequence[IClosureDecl])
- do
- for ap in n_params do
- var reg = v.variable(ap.variable)
- var orig_type = orig_sig[ap.position]
- var apst = ap.variable.stype.as(not null)
- if not orig_type < apst then
- v.add_type_cast(params[ap.position], apst)
- end
- v.stmt(new IMove(reg, params[ap.position]))
- end
- for i in [0..n_closure_decls.length[ do
- var wd = n_closure_decls[i]
- v.closurevariables[wd.variable] = closdecls[i]
- end
- end
-end
-
-redef class AClosureDecl
- redef fun accept_icode_generation(vv)
- do
- var v = vv.icode_ctx
- var iclos = variable.closure.signature.generate_empty_iclosuredef
- var old_seq = v.seq
- v.seq = iclos.body
- escapable.continue_seq = iclos.body
- escapable.continue_value = iclos.result
- n_signature.fill_iroutine_parameters(v, variable.closure.signature, iclos.params, null)
-
- if n_expr != null then
- v.generate_stmt(n_expr)
- v.iroutine.closure_decls[position].default = iclos
- end
- v.seq = old_seq
- end
-end
-
-redef class AConcreteMethPropdef
- redef fun fill_iroutine(v, method)
- do
- var params = v.iroutine.params.to_a
- var selfreg = v.variable(self_var)
- v.stmt(new IMove(selfreg, params[0]))
- params.shift
-
- var orig_meth: MMLocalProperty = method.global.intro
- var orig_sig = orig_meth.signature_for(method.signature.recv)
- if n_signature != null then
- n_signature.fill_iroutine_parameters(v, orig_sig, params, v.iroutine.closure_decls)
- end
-
- if self isa AConcreteInitPropdef then
- v.invoke_super_init_calls_after(null)
- end
-
- if n_block != null then
- v.generate_stmt(n_block)
- end
- end
-end
-
-redef class ADeferredMethPropdef
- redef fun fill_iroutine(v, method)
- do
- v.add_abort("Deferred method called")
- end
-end
-
-redef class AExternMethPropdef
- redef fun fill_iroutine(v, method)
- do
- var params = v.iroutine.params
- var ename = "{method.module.name}_{method.local_class.name}_{method.local_class.name}_{method.name}_{method.signature.arity}"
- if n_extern != null then
- ename = n_extern.text
- ename = ename.substring(1, ename.length-2)
- end
- var sig = method.signature
- assert params.length == sig.arity + 1
- var args = new Array[String]
- args.add(sig.recv.unboxtype("@@@"))
- for i in [0..sig.arity[ do
- args.add(sig[i].unboxtype("@@@"))
- end
- var s = "{ename}({args.join(", ")})"
- var rtype = sig.return_type
- if rtype != null then
- s = rtype.boxtype(s)
- v.add_return_value(v.expr(new INative(s, params), rtype))
- else
- v.stmt(new INative(s, params))
- end
- end
-end
-
-redef class AInternMethPropdef
- redef fun fill_iroutine(v, method)
- do
- var p = v.iroutine.params.to_a
- var c = method.local_class.name
- var n = method.name
- var s: nullable String = null
- if c == once "Int".to_symbol then
- if n == once "object_id".to_symbol then
- s = "@@@"
- else if n == once "unary -".to_symbol then
- s = "TAG_Int(-UNTAG_Int(@@@))"
- else if n == once "output".to_symbol then
- s = "printf(\"%ld\\n\", UNTAG_Int(@@@));"
- else if n == once "ascii".to_symbol then
- s = "TAG_Char(UNTAG_Int(@@@))"
- else if n == once "succ".to_symbol then
- s = "TAG_Int(UNTAG_Int(@@@)+1)"
- else if n == once "prec".to_symbol then
- s = "TAG_Int(UNTAG_Int(@@@)-1)"
- else if n == once "to_f".to_symbol then
- s = "BOX_Float((float)UNTAG_Int(@@@))"
- else if n == once "+".to_symbol then
- s = "TAG_Int(UNTAG_Int(@@@)+UNTAG_Int(@@@))"
- else if n == once "-".to_symbol then
- s = "TAG_Int(UNTAG_Int(@@@)-UNTAG_Int(@@@))"
- else if n == once "*".to_symbol then
- s = "TAG_Int(UNTAG_Int(@@@)*UNTAG_Int(@@@))"
- else if n == once "/".to_symbol then
- s = "TAG_Int(UNTAG_Int(@@@)/UNTAG_Int(@@@))"
- else if n == once "%".to_symbol then
- s = "TAG_Int(UNTAG_Int(@@@)%UNTAG_Int(@@@))"
- else if n == once "<".to_symbol then
- s = "TAG_Bool(UNTAG_Int(@@@)<UNTAG_Int(@@@))"
- else if n == once ">".to_symbol then
- s = "TAG_Bool(UNTAG_Int(@@@)>UNTAG_Int(@@@))"
- else if n == once "<=".to_symbol then
- s = "TAG_Bool(UNTAG_Int(@@@)<=UNTAG_Int(@@@))"
- else if n == once ">=".to_symbol then
- s = "TAG_Bool(UNTAG_Int(@@@)>=UNTAG_Int(@@@))"
- else if n == once "lshift".to_symbol then
- s = "TAG_Int(UNTAG_Int(@@@)<<UNTAG_Int(@@@))"
- else if n == once "rshift".to_symbol then
- s = "TAG_Int(UNTAG_Int(@@@)>>UNTAG_Int(@@@))"
- else if n == once "==".to_symbol then
- s = "TAG_Bool((@@@)==(@@@))"
- else if n == once "!=".to_symbol then
- s = "TAG_Bool((@@@)!=(@@@))"
- end
- else if c == once "Float".to_symbol then
- if n == once "object_id".to_symbol then
- s = "TAG_Int((bigint)UNBOX_Float(@@@))"
- else if n == once "unary -".to_symbol then
- s = "BOX_Float(-UNBOX_Float(@@@))"
- else if n == once "output".to_symbol then
- s = "printf(\"%f\\n\", UNBOX_Float(@@@));"
- else if n == once "to_i".to_symbol then
- s = "TAG_Int((bigint)UNBOX_Float(@@@))"
- else if n == once "+".to_symbol then
- s = "BOX_Float(UNBOX_Float(@@@)+UNBOX_Float(@@@))"
- else if n == once "-".to_symbol then
- s = "BOX_Float(UNBOX_Float(@@@)-UNBOX_Float(@@@))"
- else if n == once "*".to_symbol then
- s = "BOX_Float(UNBOX_Float(@@@)*UNBOX_Float(@@@))"
- else if n == once "/".to_symbol then
- s = "BOX_Float(UNBOX_Float(@@@)/UNBOX_Float(@@@))"
- else if n == once "<".to_symbol then
- s = "TAG_Bool(UNBOX_Float(@@@)<UNBOX_Float(@@@))"
- else if n == once ">".to_symbol then
- s = "TAG_Bool(UNBOX_Float(@@@)>UNBOX_Float(@@@))"
- else if n == once "<=".to_symbol then
- s = "TAG_Bool(UNBOX_Float(@@@)<=UNBOX_Float(@@@))"
- else if n == once ">=".to_symbol then
- s = "TAG_Bool(UNBOX_Float(@@@)>=UNBOX_Float(@@@))"
- end
- else if c == once "Char".to_symbol then
- if n == once "object_id".to_symbol then
- s = "TAG_Int(UNTAG_Char(@@@))"
- else if n == once "unary -".to_symbol then
- s = "TAG_Char(-UNTAG_Char(@@@))"
- else if n == once "output".to_symbol then
- s = "printf(\"%c\", (unsigned char)UNTAG_Char(@@@));"
- else if n == once "ascii".to_symbol then
- s = "TAG_Int((unsigned char)UNTAG_Char(@@@))"
- else if n == once "succ".to_symbol then
- s = "TAG_Char(UNTAG_Char(@@@)+1)"
- else if n == once "prec".to_symbol then
- s = "TAG_Char(UNTAG_Char(@@@)-1)"
- else if n == once "to_i".to_symbol then
- s = "TAG_Int(UNTAG_Char(@@@)-'0')"
- else if n == once "+".to_symbol then
- s = "TAG_Char(UNTAG_Char(@@@)+UNTAG_Char(@@@))"
- else if n == once "-".to_symbol then
- s = "TAG_Char(UNTAG_Char(@@@)-UNTAG_Char(@@@))"
- else if n == once "*".to_symbol then
- s = "TAG_Char(UNTAG_Char(@@@)*UNTAG_Char(@@@))"
- else if n == once "/".to_symbol then
- s = "TAG_Char(UNTAG_Char(@@@)/UNTAG_Char(@@@))"
- else if n == once "%".to_symbol then
- s = "TAG_Char(UNTAG_Char(@@@)%UNTAG_Char(@@@))"
- else if n == once "<".to_symbol then
- s = "TAG_Bool(UNTAG_Char(@@@)<UNTAG_Char(@@@))"
- else if n == once ">".to_symbol then
- s = "TAG_Bool(UNTAG_Char(@@@)>UNTAG_Char(@@@))"
- else if n == once "<=".to_symbol then
- s = "TAG_Bool(UNTAG_Char(@@@)<=UNTAG_Char(@@@))"
- else if n == once ">=".to_symbol then
- s = "TAG_Bool(UNTAG_Char(@@@)>=UNTAG_Char(@@@))"
- else if n == once "==".to_symbol then
- s = "TAG_Bool((@@@)==(@@@))"
- else if n == once "!=".to_symbol then
- s = "TAG_Bool((@@@)!=(@@@))"
- end
- else if c == once "Bool".to_symbol then
- if n == once "object_id".to_symbol then
- s = "TAG_Int(UNTAG_Bool(@@@))"
- else if n == once "unary -".to_symbol then
- s = "TAG_Bool(-UNTAG_Bool(@@@))"
- else if n == once "output".to_symbol then
- s = "(void)printf(UNTAG_Bool(@@@)?\"true\\n\":\"false\\n\");"
- else if n == once "ascii".to_symbol then
- s = "TAG_Bool(UNTAG_Bool(@@@))"
- else if n == once "to_i".to_symbol then
- s = "TAG_Int(UNTAG_Bool(@@@))"
- else if n == once "==".to_symbol then
- s = "TAG_Bool((@@@)==(@@@))"
- else if n == once "!=".to_symbol then
- s = "TAG_Bool((@@@)!=(@@@))"
- end
- else if c == once "NativeArray".to_symbol then
- if n == once "object_id".to_symbol then
- s = "TAG_Int(UNBOX_NativeArray(@@@))"
- else if n == once "[]".to_symbol then
- s = "UNBOX_NativeArray(@@@)[UNTAG_Int(@@@)]"
- else if n == once "[]=".to_symbol then
- s = "UNBOX_NativeArray(@@@)[UNTAG_Int(@@@)]=@@@;"
- else if n == once "copy_to".to_symbol then
- var t = p[0]
- p[0] = p[1]
- p[1] = t
- s = "(void)memcpy(UNBOX_NativeArray(@@@), UNBOX_NativeArray(@@@), UNTAG_Int(@@@)*sizeof(val_t));"
- end
- else if c == once "NativeString".to_symbol then
- if n == once "object_id".to_symbol then
- s = "TAG_Int(UNBOX_NativeString(@@@))"
- else if n == once "atoi".to_symbol then
- s = "TAG_Int(atoi(UNBOX_NativeString(@@@)))"
- else if n == once "[]".to_symbol then
- s = "TAG_Char(UNBOX_NativeString(@@@)[UNTAG_Int(@@@)])"
- else if n == once "[]=".to_symbol then
- s = "UNBOX_NativeString(@@@)[UNTAG_Int(@@@)]=UNTAG_Char(@@@);"
- else if n == once "copy_to".to_symbol then
- var t = p[0]
- p[0] = p[1]
- p[1] = p[4]
- p[4] = p[2]
- p[2] = t
- s = "(void)memcpy(UNBOX_NativeString(@@@)+UNTAG_Int(@@@), UNBOX_NativeString(@@@)+UNTAG_Int(@@@), UNTAG_Int(@@@));"
- end
- else if n == once "object_id".to_symbol then
- s = "TAG_Int((bigint)@@@)"
- else if n == once "sys".to_symbol then
- s = "(G_sys)"
- else if n == once "is_same_type".to_symbol then
- s = "TAG_Bool((VAL2VFT(@@@)==VAL2VFT(@@@)))"
- else if n == once "exit".to_symbol then
- p[0] = p[1]
- s = "exit(UNTAG_Int(@@@));"
- else if n == once "calloc_array".to_symbol then
- p[0] = p[1]
- s = "BOX_NativeArray((val_t*)malloc((UNTAG_Int(@@@) * sizeof(val_t))))"
- else if n == once "calloc_string".to_symbol then
- p[0] = p[1]
- s = "BOX_NativeString((char*)malloc((UNTAG_Int(@@@) * sizeof(char))))"
- end
- if s == null then
- v.visitor.error(self, "Fatal error: unknown intern method {method.full_name}.")
- s = "NIT_NULL"
- end
- var rtype = method.signature.return_type
- if rtype != null then
- v.add_return_value(v.expr(new INative(s, p), rtype))
- else
- v.stmt(new INative(s, p))
- end
- end
-end
-
-###############################################################################
-
-redef class AExpr
- redef fun accept_icode_generation(v) do end
-
- # Generate icode sequence in the current A2IContext
- # This method should not be called direclty: use generate_expr and generate_stmt from A2IContext instead
- protected fun generate_icode(v: A2IContext): nullable IRegister is abstract
-end
-
-redef class AVardeclExpr
- redef fun generate_icode(v)
- do
- var reg = v.variable(variable)
- var ne = n_expr
- if ne != null then
- v.add_assignment(reg, v.generate_expr(ne))
- end
- return null
- end
-end
-
-redef class ABlockExpr
- redef fun generate_icode(v)
- do
- for ne in n_expr do v.generate_stmt(ne)
- return null
- end
-end
-
-redef class ADoExpr
- redef fun generate_icode(v)
- do
- var seq_old = v.seq
- var seq = new ISeq
- v.stmt(seq)
- escapable.break_seq = seq
- v.seq = seq
-
- v.generate_stmt(n_block)
-
- v.seq = seq_old
- return null
- end
-end
-
-redef class AReturnExpr
- redef fun generate_icode(v)
- do
- var ne = n_expr
- if ne != null then
- v.add_assignment(v.return_value.as(not null), v.generate_expr(ne))
- end
- v.stmt(new IEscape(v.return_seq.as(not null)))
- return null
- end
-end
-
-redef class ABreakExpr
- redef fun generate_icode(v)
- do
- var ne = n_expr
- if ne != null then
- v.add_assignment(escapable.break_value.as(not null), v.generate_expr(ne))
- end
- v.stmt(new IEscape(escapable.break_seq.as(not null)))
- return null
- end
-end
-
-redef class AContinueExpr
- redef fun generate_icode(v)
- do
- var ne = n_expr
- if ne != null then
- v.add_assignment(escapable.continue_value.as(not null), v.generate_expr(ne))
- end
- v.stmt(new IEscape(escapable.continue_seq.as(not null)))
- return null
- end
-end
-
-redef class AAbortExpr
- redef fun generate_icode(v)
- do
- v.add_abort("Aborted")
- return null
- end
-end
-
-redef class AIfExpr
- redef fun generate_icode(v)
- do
- var iif = new IIf(v.generate_expr(n_expr))
- v.stmt(iif)
- var seq_old = v.seq
-
- if n_then != null then
- v.seq = iif.then_seq
- v.generate_stmt(n_then)
- end
-
- if n_else != null then
- v.seq = iif.else_seq
- v.generate_stmt(n_else)
- end
-
- v.seq = seq_old
- return null
- end
-end
-
-redef class AWhileExpr
- redef fun generate_icode(v)
- do
- var seq_old = v.seq
- var iloop = new ILoop
- v.stmt(iloop)
- escapable.break_seq = iloop
- v.seq = iloop
-
- # Process condition
- var iif = new IIf(v.generate_expr(n_expr))
- v.stmt(iif)
-
- # Process inside (condition is true)
- if n_block != null then
- v.seq = iif.then_seq
- escapable.continue_seq = iif.then_seq
- v.generate_stmt(n_block)
- end
-
- # Process escape (condition is false)
- v.seq = iif.else_seq
- v.stmt(new IEscape(iloop))
-
- v.seq = seq_old
- return null
- end
-end
-
-redef class ALoopExpr
- redef fun generate_icode(v)
- do
- var seq_old = v.seq
- var iloop = new ILoop
- v.stmt(iloop)
- escapable.break_seq = iloop
- v.seq = iloop
-
- # Process inside
- if n_block != null then
- var seq = new ISeq
- v.stmt(seq)
- v.seq = seq
- escapable.continue_seq = seq
- v.generate_stmt(n_block)
- end
-
- v.seq = seq_old
- return null
- end
-end
-
-redef class AForExpr
- redef fun generate_icode(v)
- do
- var expr_type = n_expr.stype
-
- # Get iterator
- var meth_iterator = v.visitor.get_method(expr_type, once "iterator".to_symbol)
-
- var iter_type = meth_iterator.signature_for(expr_type).return_type.as(not null)
- var ireg_iter = v.expr(new ICall(meth_iterator, [v.generate_expr(n_expr)]), iter_type)
-
- # Enter loop
- var seq_old = v.seq
- var iloop = new ILoop
- v.stmt(iloop)
- escapable.break_seq = iloop
- v.seq = iloop
-
- # Condition evaluation
- var meth_is_ok = v.visitor.get_method(iter_type, once ("is_ok".to_symbol))
- var ireg_isok = v.expr(new ICall(meth_is_ok, [ireg_iter]), v.visitor.type_bool)
- var iif = new IIf(ireg_isok)
-
- # Process insite the loop (condition is true)
- v.stmt(iif)
- v.seq = iif.then_seq
- escapable.continue_seq = iif.then_seq
-
- # Automatic variable assignment
- var meth_item = v.visitor.get_method(iter_type, once ("item".to_symbol))
- var va_stype = variable.stype.as(not null)
- var ireg_item = v.expr(new ICall(meth_item, [ireg_iter]), va_stype)
- var ireg_va = v.variable(variable)
- v.add_assignment(ireg_va, ireg_item)
-
- # Body evaluation
- v.generate_stmt(n_block)
-
- # Exit contition (condition is false)
- v.seq = iif.else_seq
- v.stmt(new IEscape(iloop))
-
- # Next step
- var meth_next = v.visitor.get_method(iter_type, once ("next".to_symbol))
- v.seq = iloop
- v.stmt(new ICall(meth_next, [ireg_iter]))
-
- v.seq = seq_old
- return null
- end
-end
-
-redef class AAssertExpr
- redef fun generate_icode(v)
- do
- var e = v.generate_expr(n_expr)
- var iif = new IIf(e)
- v.stmt(iif)
- var seq_old = v.seq
- v.seq = iif.else_seq
- var id = n_id
- if id == null then
- v.add_abort("Assert failed")
- else
- v.add_abort("Assert %s failed", id.to_s)
- end
- v.seq = seq_old
- return null
- end
-end
-
-redef class AVarExpr
- redef fun generate_icode(v)
- do
- return v.variable(variable)
- end
-end
-
-redef class AVarAssignExpr
- redef fun generate_icode(v)
- do
- var e = v.generate_expr(n_value)
- v.add_assignment(v.variable(variable), e)
- return null
- end
-end
-
-redef class AVarReassignExpr
- redef fun generate_icode(v)
- do
- var e1 = v.variable(variable)
- var e2 = v.generate_expr(n_value)
- var e3 = v.expr(new ICall(assign_method, [e1, e2]), assign_method.signature.return_type.as(not null))
- v.add_assignment(e1, e3)
- return null
- end
-end
-
-redef class ASelfExpr
- redef fun generate_icode(v)
- do
- return v.variable(variable)
- end
-end
-
-redef class AIfexprExpr
- redef fun generate_icode(v)
- do
- # Process condition
- var iif = new IIf(v.generate_expr(n_expr))
- v.stmt(iif)
- var seq_old = v.seq
-
- # Prepare result
- var reg = v.new_register(stype)
-
- # Process 'then'
- v.seq = iif.then_seq
- v.add_assignment(reg, v.generate_expr(n_then))
-
- # Process 'else'
- v.seq = iif.else_seq
- v.add_assignment(reg, v.generate_expr(n_else))
-
- v.seq = seq_old
- return reg
- end
-end
-
-redef class AEeExpr
- redef fun generate_icode(v)
- do
- var e = v.generate_expr(n_expr)
- var e2 = v.generate_expr(n_expr2)
- return v.expr(new IIs(e, e2), stype)
- end
-end
-
-redef class AOrExpr
- redef fun generate_icode(v)
- do
- # Prepare result
- var reg = v.new_register(stype)
-
- # Process left operand (in a if/then)
- var iif = new IIf(v.generate_expr(n_expr))
- v.stmt(iif)
- var seq_old = v.seq
- v.seq = iif.then_seq
- v.add_assignment(reg, v.lit_true_reg)
-
- # Process right operand (in the else)
- v.seq = iif.else_seq
- v.add_assignment(reg, v.generate_expr(n_expr2))
-
- v.seq = seq_old
- return reg
- end
-end
-
-redef class AAndExpr
- redef fun generate_icode(v)
- do
- # Prepare result
- var reg = v.new_register(stype)
-
- # Process left operand (in a if/else)
- var iif = new IIf(v.generate_expr(n_expr))
- v.stmt(iif)
- var seq_old = v.seq
- v.seq = iif.else_seq
- v.add_assignment(reg, v.lit_false_reg)
-
- # Process right operand (in the then)
- v.seq = iif.then_seq
- v.add_assignment(reg, v.generate_expr(n_expr2))
-
- v.seq = seq_old
- return reg
- end
-end
-
-redef class ANotExpr
- redef fun generate_icode(v)
- do
- var e = v.generate_expr(n_expr)
- return v.expr(new INot(e), stype)
- end
-end
-
-redef class AIsaExpr
- redef fun generate_icode(v)
- do
- var e = v.generate_expr(n_expr)
- return v.expr(new ITypeCheck(e, n_type.stype), stype)
- end
-end
-
-redef class AAsCastExpr
- redef fun generate_icode(v)
- do
- var e = v.generate_expr(n_expr)
- v.add_type_cast(e, stype)
- return e
- end
-end
-
-redef class AAsNotnullExpr
- redef fun generate_icode(v)
- do
- var e = v.generate_expr(n_expr)
- v.add_type_cast(e, stype)
- return e
- end
-end
-
-redef class ATrueExpr
- redef fun generate_icode(v)
- do
- return v.lit_true_reg
- end
-end
-
-redef class AFalseExpr
- redef fun generate_icode(v)
- do
- return v.lit_false_reg
- end
-end
-
-redef class AIntExpr
- redef fun generate_icode(v)
- do
- return v.expr(new INative("TAG_Int({n_number.text})", null), stype)
- end
-end
-
-redef class AFloatExpr
- redef fun generate_icode(v)
- do
- return v.expr(new INative("BOX_Float({n_float.text})", null), stype)
- end
-end
-
-redef class ACharExpr
- redef fun generate_icode(v)
- do
- return v.expr(new INative("TAG_Char({n_char.text})", null), stype)
- end
-end
-
-redef class AStringFormExpr
- redef fun generate_icode(v)
- do
- compute_string_infos
- var old_seq = v.seq
- var ionce = new IOnce
- var reg = v.expr(ionce, stype)
- v.seq = ionce.body
- var ns = v.expr(new INative("BOX_NativeString(\"{_cstring}\")", null), v.visitor.type_nativestring)
- var ni = v.expr(new INative("TAG_Int({_cstring_length})", null), v.visitor.type_int)
- var prop = v.visitor.get_method(stype, once "with_native".to_symbol)
- var e = v.expr(new INew(stype, prop, [ns, ni]), stype)
- v.add_assignment(reg, e)
- v.seq = old_seq
- return reg
- end
-
- # The raw string value
- protected fun string_text: String is abstract
-
- # The string in a C native format
- protected var _cstring: nullable String
-
- # The string length in bytes
- protected var _cstring_length: nullable Int
-
- # Compute _cstring and _cstring_length using string_text
- protected fun compute_string_infos
- do
- var len = 0
- var str = string_text
- var res = new Buffer
- var i = 0
- while i < str.length do
- var c = str[i]
- if c == '\\' then
- i = i + 1
- var c2 = str[i]
- if c2 != '{' and c2 != '}' then
- res.add(c)
- end
- c = c2
- end
- len = len + 1
- res.add(c)
- i = i + 1
- end
- _cstring = res.to_s
- _cstring_length = len
- end
-end
-
-redef class AStringExpr
- redef fun string_text do return n_string.text.substring(1, n_string.text.length - 2)
-end
-redef class AStartStringExpr
- redef fun string_text do return n_string.text.substring(1, n_string.text.length - 2)
-end
-redef class AMidStringExpr
- redef fun string_text do return n_string.text.substring(1, n_string.text.length - 2)
-end
-redef class AEndStringExpr
- redef fun string_text do return n_string.text.substring(1, n_string.text.length - 2)
-end
-
-redef class ASuperstringExpr
- redef fun generate_icode(v)
- do
- var array = v.add_new_array(atype, n_exprs.length)
- var prop_to_s = v.visitor.get_method(v.visitor.type_object, once "to_s".to_symbol)
- for ne in n_exprs do
- var e = v.generate_expr(ne)
- if ne.stype != stype then
- e = v.expr(new ICall(prop_to_s, [e]), stype)
- end
- v.add_call_array_add(array, e)
- end
- return v.expr(new ICall(prop_to_s, [array]), stype)
- end
-end
-
-redef class ANullExpr
- redef fun generate_icode(v)
- do
- return v.lit_null_reg
- end
-end
-
-redef class AArrayExpr
- redef fun generate_icode(v)
- do
- var recv = v.add_new_array(stype, n_exprs.length)
- for ne in n_exprs do
- var e = v.generate_expr(ne)
- v.add_call_array_add(recv, e)
- end
- return recv
- end
-end
-
-redef class ACrangeExpr
- redef fun generate_icode(v)
- do
- var e = v.generate_expr(n_expr)
- var e2 = v.generate_expr(n_expr2)
- var prop = v.visitor.get_method(stype, once "init".to_symbol)
- return v.expr(new INew(stype, prop, [e, e2]), stype)
- end
-end
-
-redef class AOrangeExpr
- redef fun generate_icode(v)
- do
- var e = v.generate_expr(n_expr)
- var e2 = v.generate_expr(n_expr2)
- var prop = v.visitor.get_method(stype, once "without_last".to_symbol)
- return v.expr(new INew(stype, prop, [e, e2]), stype)
- end
-end
-
-redef class ASuperExpr
- redef fun generate_icode(v)
- do
- var arity = v.iroutine.params.length - 1
- if init_in_superclass != null then
- arity = init_in_superclass.signature.arity
- end
- var args = new Array[IRegister].with_capacity(arity + 1)
- args.add(v.iroutine.params[0])
- if n_args.length != arity then
- for i in [0..arity[ do
- args.add(v.iroutine.params[i + 1])
- end
- else
- for na in n_args do
- args.add(v.generate_expr(na))
- end
- end
- var p = init_in_superclass
- if p != null then
- var rtype = p.signature.return_type
- if rtype != null then
- return v.expr(new ICall(p, args), rtype)
- else
- v.stmt(new ICall(p, args))
- return null
- end
- else
- p = prop
- var rtype = p.signature.return_type
- if rtype == null then
- v.stmt(new ISuper(p, args))
- return null
- else
- return v.expr(new ISuper(p, args), rtype)
- end
- end
- end
-end
-
-redef class AAttrExpr
- redef fun generate_icode(v)
- do
- var e = v.generate_expr(n_expr)
- if n_expr.stype.is_nullable then v.add_null_reciever_check(e)
- return v.add_attr_read(prop, e)
- end
-end
-
-redef class AAttrAssignExpr
- redef fun generate_icode(v)
- do
- var e = v.generate_expr(n_expr)
- if n_expr.stype.is_nullable then v.add_null_reciever_check(e)
- var e2 = v.generate_expr(n_value)
- v.stmt(new IAttrWrite(prop, e, e2))
- return null
- end
-end
-redef class AAttrReassignExpr
- redef fun generate_icode(v)
- do
- var e1 = v.generate_expr(n_expr)
- if n_expr.stype.is_nullable then v.add_null_reciever_check(e1)
- var e2 = v.expr(new IAttrRead(prop, e1), attr_type)
- var e3 = v.generate_expr(n_value)
- var e4 = v.expr(new ICall(assign_method, [e2, e3]), attr_type)
- v.stmt(new IAttrWrite(prop, e1, e4))
- return null
- end
-end
-
-redef class AIssetAttrExpr
- redef fun generate_icode(v)
- do
- var e = v.generate_expr(n_expr)
- if n_expr.stype.is_nullable then v.add_null_reciever_check(e)
- return v.expr(new IAttrIsset(prop, e), stype)
- end
-end
-
-redef class AAbsAbsSendExpr
- # Compile each argument and add them to the array
- fun generate_icode_for_arguments_in(v: A2IContext, args: Array[IRegister], signature: MMSignature)
- do
- var par_arity = signature.arity
- var par_vararg = signature.vararg_rank
- var raw_args = raw_arguments
- var raw_arity = raw_args.length
- var arg_idx = 0
- for par_idx in [0..par_arity[ do
- var a: AExpr
- var par_type = signature[par_idx]
- if par_idx == par_vararg then
- var arr = v.add_new_array(v.visitor.type_array(par_type), raw_arity-par_arity)
- for i in [0..(raw_arity-par_arity)] do
- a = raw_args[arg_idx]
- v.add_call_array_add(arr, v.generate_expr(a))
- arg_idx = arg_idx + 1
- end
- args.add(arr)
- else
- a = raw_args[arg_idx]
- args.add(v.generate_expr(a))
- arg_idx = arg_idx + 1
- end
- end
- end
-end
-
-redef class ASendExpr
- redef fun generate_icode(v)
- do
- var recv = v.generate_expr(n_expr)
- var args = new Array[IRegister]
- args.add(recv)
- var prop = prop
- generate_icode_for_arguments_in(v, args, prop.signature.as(not null))
- var r: nullable IRegister = null # The full result of the send (raw call + breaks)
- var r2: nullable IRegister # The raw result of the call
-
- # Prepare closures
- var seq_old = v.seq
- var closcns: nullable Array[nullable IClosureDef] = null
- if not prop_signature.closures.is_empty then
- var rtype = prop_signature.return_type
- if rtype != null then
- r = v.new_register(rtype)
- end
- var seq = new ISeq
- v.stmt(seq)
- v.seq = seq
- closcns = new Array[nullable IClosureDef]
- var cdarity = 0
- if closure_defs != null then cdarity = closure_defs.length
- var closure_defs = closure_defs
- for mmc in prop_signature.closures do
- var found = false
- var name = mmc.name
- if closure_defs != null then
- for cd in closure_defs do
- if cd.n_id.to_symbol != name then continue
- assert found == false
- found = true
- cd.escapable.break_seq = seq
- cd.escapable.break_value = r
- var cn = cd.generate_iclosuredef(v)
- closcns.add(cn)
- end
- end
- if not found then
- closcns.add(null)
- end
- end
- end
-
- r2 = v.add_call(prop, args, closcns)
-
- # Closure work
- if not prop_signature.closures.is_empty then
- if r != null and r2 != null then v.add_assignment(r, r2)
- v.seq = seq_old
- else
- r = r2
- end
-
- if prop.global.is_init then
- v.invoke_super_init_calls_after(prop)
- end
- return r
- end
-end
-
-redef class ASendReassignExpr
- redef fun generate_icode(v)
- do
- var recv = v.generate_expr(n_expr)
- if n_expr.stype.is_nullable then v.add_null_reciever_check(recv)
- var args = new Array[IRegister]
- args.add(recv)
- generate_icode_for_arguments_in(v, args, read_prop.signature.as(not null))
-
- var e2 = v.expr(new ICall(read_prop, args), read_prop.signature.return_type.as(not null))
- var e3 = v.generate_expr(n_value)
- var e4 = v.expr(new ICall(assign_method, [e2, e3]), assign_method.signature.return_type.as(not null))
- var args2 = args.to_a
- args2.add(e4)
- v.stmt(new ICall(prop, args2))
- return null
- end
-end
-
-redef class ANewExpr
- redef fun generate_icode(v)
- do
- var args = new Array[IRegister]
- generate_icode_for_arguments_in(v, args, prop.signature.as(not null))
- return v.expr(new INew(stype, prop, args), stype)
- end
-end
-
-redef class AProxyExpr
- redef fun generate_icode(v)
- do
- return v.generate_expr(n_expr)
- end
-end
-
-redef class AOnceExpr
- redef fun generate_icode(v)
- do
- var ionce = new IOnce
- var reg = v.expr(ionce, stype)
- var old_seq = v.seq
- v.seq = ionce.body
-
- var e = v.generate_expr(n_expr)
- v.add_assignment(reg, e)
-
- v.seq = old_seq
- return reg
- end
-end
-
-
-redef class AClosureDef
- var _iclosure_def: nullable IClosureDef
-
- fun generate_iclosuredef(v: A2IContext): IClosureDef
- do
- # Prepare signature
- var args = new Array[IRegister]
- var sig = closure.signature
- for i in [0..sig.arity[ do
- args.add(v.new_register(sig[i]))
- end
- var ret: nullable IRegister = null
- var rtype = sig.return_type
- if rtype != null then
- ret = v.new_register(rtype)
- end
-
- var iclos = new IClosureDef(args, ret)
- iclos.location = location
-
- # Prepare env
- var seq_old = v.seq
- v.seq = iclos.body
- escapable.continue_seq = iclos.body
- escapable.continue_value = iclos.result
-
- # Assign parameters
- for i in [0..variables.length[ do
- var res = v.variable(variables[i])
- v.add_assignment(res, iclos.params[i])
- end
-
- v.generate_stmt(n_expr)
-
- v.seq = seq_old
- _iclosure_def = iclos
- return iclos
- end
-end
-
-redef class AClosureCallExpr
- redef fun generate_icode(v)
- do
- # Geneate arguments
- var args = new Array[IRegister]
- generate_icode_for_arguments_in(v, args, variable.closure.signature)
-
- # Prepare icall
- var closdecl = v.closurevariables[variable]
- var icall = new IClosCall(closdecl, args)
- var seq_old = v.seq
-
- # Fill break of ical
- if n_closure_defs.length == 1 then do
- var iseq = new ISeq
- icall.break_seq = iseq
- v.seq = iseq
- v.generate_stmt(n_closure_defs.first.n_expr)
- v.seq = seq_old
- end
-
- # Prepare in case of default block
- var iif: nullable IIf = null # The iif of default block
- var closdecl_default = closdecl.default # The default (if any)
- if closdecl_default != null then
- iif = new IIf(v.expr(new IHasClos(closdecl), v.visitor.type_bool))
- v.stmt(iif)
- v.seq = iif.then_seq
- end
-
- # Add the icall
- var r2: nullable IRegister = null # the result of the icall
- var rtype = variable.closure.signature.return_type
- if rtype == null then
- v.stmt(icall)
- else
- r2 = v.expr(icall, rtype)
- end
-
- # Process the case of default block
- var r: nullable IRegister = null # the real result
- if closdecl_default != null then
- assert iif != null
- if r2 != null then
- assert rtype != null
- r = v.new_register(rtype)
- v.add_assignment(r, r2)
- end
- v.seq = iif.else_seq
- var r3 = closdecl_default.inline_in_seq(iif.else_seq, args)
- if r != null then
- assert r3 != null
- v.add_assignment(r, r3)
- end
- v.seq = seq_old
- else
- r = r2
- end
- return r
- end
-end