# Compile a statment node
meth compile_stmt(n: PExpr)
do
+ if n == null then return
+ add_instr("/* Compile stmt {n.locate} */")
n.prepare_compile_stmt(self)
var i = cfc._variable_index
n.compile_stmt(self)
# Compile is expression node
meth compile_expr(n: PExpr): String
do
+ add_instr("/* Compile expr {n.locate} */")
var i = cfc._variable_index
var s = n.compile_expr(self)
cfc._variable_index = i
- if s[0] == ' ' then
+ if s[0] == ' ' or cfc.is_valid_variable(s) then
return s
end
- var v = cfc.get_var
+ var v = cfc.get_var("Result for expr {n.locate}")
add_assignment(v, s)
return v
end
# Ensure that a c expression is a var
- meth ensure_var(s: String): String
+ meth ensure_var(s: String, comment: String): String
do
- if s.substring(0,3) == "variable" then
+ if cfc.is_valid_variable(s) then
+ add_instr("/* Ensure var {s}: {comment}*/")
return s
end
- var v = cfc.get_var
- add_assignment(v, s)
+ var v = cfc.get_var(null)
+ add_assignment(v, "{s} /* Ensure var: {comment}*/")
return v
end
# Generate an fprintf to display an error location
meth printf_locate_error(node: PNode): String
do
- var s = "fprintf(stderr, \""
+ var s = new Buffer.from("fprintf(stderr, \"")
if nmc != null then s.append(" in %s")
s.append(" (%s:%d)\\n\", ")
if nmc != null then s.append("LOCATE_{nmc.method.cname}, ")
s.append("LOCATE_{module.name}, {node.line_number});")
- return s
- end
-
- redef init(module: MMSrcModule)
- do
- super
+ return s.to_s
end
meth invoke_super_init_calls_after(start_prop: MMMethod)
end
end
#s.append(" {p}")
- p.compile_call(self, cargs)
+ p.compile_stmt_call(self, cargs)
i += 1
end
#s.append(" ]")
# Total number of variable
attr _variable_index_max: Int = 0
- # Association between nit variable and the corrsponding c variable
- attr _varnames: Map[Variable, String] = new HashMap[Variable, String]
+ # Association between nit variable and the corrsponding c variable index
+ attr _varindexes: Map[Variable, Int] = new HashMap[Variable, Int]
# Are we currenlty in a closure definition?
- readable writable attr _in_closure: Bool = false
+ readable writable attr _closure: NitMethodContext = null
+ # Return the cvariable of a Nit variable
meth varname(v: Variable): String
do
- if _in_closure then
- return "closctx->{_varnames[v]}"
+ if v isa ClosureVariable then
+ return closure_variable(_varindexes[v])
else
- return _varnames[v]
+ return variable(_varindexes[v])
end
end
# Return the next available variable
- meth get_var: String
+ meth get_var(comment: String): String
do
var v = variable(_variable_index)
_variable_index = _variable_index + 1
if _variable_index > _variable_index_max then
- #visitor.add_decl("val_t {v};")
_variable_index_max = _variable_index
end
+ if comment != null then
+ visitor.add_instr("/* Register {v}: {comment} */")
+ end
return v
end
meth register_variable(v: Variable): String
do
- var s = get_var
- _varnames[v] = "variable[{_variable_index-1}]"
+ _varindexes[v] = _variable_index
+ var s = get_var("Local variable")
return s
end
meth register_closurevariable(v: ClosureVariable): String
do
var s = "closurevariable[{_closurevariable_index}]"
+ _varindexes[v] = _closurevariable_index
_closurevariable_index += 1
- _varnames[v] = s
- if _in_closure then
+ if _closure != null then
return "(closctx->{s})"
else
return s
end
end
- # Return the ith variable
+ # Return the ith cvariable
protected meth variable(i: Int): String
do
- if _in_closure then
- return "(closctx->variable[{i}])"
+ if closure != null then
+ var vn = once new Array[String]
+ if vn.length <= i then
+ for j in [vn.length..i] do
+ vn[j] = "(closctx->variable[{j}])"
+ end
+ end
+ return vn[i]
+ else
+ var vn = once new Array[String]
+ if vn.length <= i then
+ for j in [vn.length..i] do
+ vn[j] = "variable[{j}]"
+ end
+ end
+ return vn[i]
+ end
+ end
+
+ # Return the ith closurevariable
+ protected meth closure_variable(i: Int): String
+ do
+ if closure != null then
+ return "(closctx->closurevariable[{i}])"
else
- return "variable[{i}]"
+ return "closurevariable[{i}]"
end
end
+ # Is s a valid variable
+ protected meth is_valid_variable(s: String): Bool
+ do
+ for i in [0.._variable_index[ do
+ if s == variable(i) then return true
+ end
+ return false
+ end
+
# Mark the variable available
meth free_var(v: String)
do
visitor.add_decl("val_t *variable = NULL;")
end
if _closurevariable_index > 0 then
- visitor.add_decl("void *closurevariable[{_closurevariable_index}];")
+ visitor.add_decl("struct WBT_ *closurevariable[{_closurevariable_index}];")
else
- visitor.add_decl("void **closurevariable = NULL;")
+ visitor.add_decl("struct WBT_ **closurevariable = NULL;")
end
end
end
redef class MMMethod
+ # Compile as an expression.
+ # require that signature.return_type != null
+ meth compile_expr_call(v: CompilerVisitor, cargs: Array[String]): String
+ do
+ assert signature.return_type != null
+ var s = intern_compile_call(v, cargs)
+ assert s != null
+ return s
+ end
+
+ # Compile as a statement.
+ # require that signature.return_type == null
+ meth compile_stmt_call(v: CompilerVisitor, cargs: Array[String])
+ do
+ assert signature.return_type == null
+ var s = intern_compile_call(v, cargs)
+ assert s == null
+ end
+
# Compile a call on self for given arguments
# Most calls are compiled with a table access,
# primitive calles are inlined
# == and != are guarded and possibly inlined
- meth compile_call(v: CompilerVisitor, cargs: Array[String]): String
+ private meth intern_compile_call(v: CompilerVisitor, cargs: Array[String]): String
do
var i = self
if i isa MMSrcMethod then
var ne = once "!=".to_symbol
if name == ne then
var eqp = signature.recv.local_class.select_method(ee)
- var eqcall = eqp.compile_call(v, cargs)
+ var eqcall = eqp.compile_expr_call(v, cargs)
return "TAG_Bool(!UNTAG_Bool({eqcall}))"
end
if global.is_init then
end
end
+ # Compile a call on self for given arguments and given closures
+ meth compile_call_and_closures(v: CompilerVisitor, cargs: Array[String], clos_defs: Array[PClosureDef]): String
+ do
+ var ve: String = null
+ var arity = 0
+ if clos_defs != null then arity = clos_defs.length
+
+ # Prepare result value.
+ # In case of procedure, the return value is still used to intercept breaks
+ var old_bv = v.nmc.break_value
+ ve = v.cfc.get_var("Closure return value and escape marker")
+ v.nmc.break_value = ve
+
+ # Compile closure to c function
+ var realcargs = new Array[String] # Args to pass to the C function call
+ var closcns = new Array[String] # Closure C structure names
+ realcargs.add_all(cargs)
+ for i in [0..arity[ do
+ var cn = clos_defs[i].compile_closure(v, closure_cname(i))
+ closcns.add(cn)
+ realcargs.add(cn)
+ end
+ for i in [arity..signature.closures.length[ do
+ realcargs.add("NULL")
+ end
+
+ v.nmc.break_value = old_bv
+
+ # Call
+ var e = intern_compile_call(v, realcargs)
+ if e != null then
+ v.add_assignment(ve, e)
+ e = ve
+ end
+
+ # Intercept returns and breaks
+ for i in [0..arity[ do
+ # A break or a return is intercepted
+ v.add_instr("if ({closcns[i]}->has_broke != NULL) \{")
+ v.indent
+ # A passtrought break or a return is intercepted: go the the next closure
+ v.add_instr("if ({closcns[i]}->has_broke != &({ve})) \{")
+ v.indent
+ if v.cfc.closure == v.nmc then v.add_instr("closctx->has_broke = {closcns[i]}->has_broke; closctx->broke_value = {closcns[i]}->broke_value;")
+ v.add_instr("goto {v.nmc.return_label};")
+ v.unindent
+ # A direct break is interpected
+ if e != null then
+ # overwrite the returned value in a function
+ v.add_instr("\} else {ve} = {closcns[i]}->broke_value;")
+ else
+ # Do nothing in a procedure
+ v.add_instr("\}")
+ end
+ v.unindent
+ v.add_instr("\}")
+ end
+ return e
+ end
+
# Compile a call as constructor with given args
meth compile_constructor_call(v: CompilerVisitor, recvtype: MMType, cargs: Array[String]): String
do
- var recv = v.cfc.get_var
- v.add_instr("{recv} = NEW_{recvtype.local_class}_{global.intro.cname}({cargs.join(", ")}); /*new {recvtype}*/")
- return recv
+ return "NEW_{recvtype.local_class}_{global.intro.cname}({cargs.join(", ")}) /*new {recvtype}*/"
end
# Compile a call as call-next-method on self with given args
# Cname of the i-th closure C struct type
protected meth closure_cname(i: Int): String
do
- return "WBT_{cname}_{i}"
+ return "FWBT_{cname}_{i}"
end
end
var closcn = closure_cname(i)
var cs = signature.closures[i].signature # Closure signature
var subparams = new Array[String] # Parameters of the closure
- subparams.add("struct {closcn}*")
+ subparams.add("struct WBT_ *")
for j in [0..cs.arity[ do
var p = "val_t"
subparams.add(p)
end
var r = "void"
if cs.return_type != null then r = "val_t"
- params.add("struct {closcn} *{args[first_closure_index+i]}")
- v.add_decl("struct {closcn};")
- v.add_decl("typedef {r} (*F{closcn})({subparams.join(", ")});")
- v.add_decl("struct {closcn} \{F{closcn} fun; val_t *has_broke; val_t broke_value; val_t *variable; void **closurevariable;\};")
+ params.add("struct WBT_ *{args[first_closure_index+i]}")
+ v.add_decl("typedef {r} (*{closcn})({subparams.join(", ")});")
end
if global.is_init then
for i in [1..f[ do
args.add(params[i])
end
- sp.compile_call(v, args)
+ sp.compile_stmt_call(v, args)
else
- sp.compile_call(v, args_recv)
+ sp.compile_stmt_call(v, args_recv)
end
end
for i in [f..params.length[ do
for i in [0..n_closure_decls.length[ do
var wd = n_closure_decls[i]
var cname = v.cfc.register_closurevariable(wd.variable)
- wd.variable.ctypename = "struct {v.nmc.method.closure_cname(i)} *"
+ wd.variable.ctypename = v.nmc.method.closure_cname(i)
v.add_assignment(cname, "{params[orig_sig.arity + i]}")
end
end
end
v.nmc.return_label = "return_label{v.new_number}"
- v.nmc.return_value = v.cfc.get_var
+ v.nmc.return_value = v.cfc.get_var("Method return value and escape marker")
if self isa AConcreteInitPropdef then
v.invoke_super_init_calls_after(null)
end
- if n_block != null then
- v.compile_stmt(n_block)
- end
+ v.compile_stmt(n_block)
v.add_instr("{v.nmc.return_label}: while(false);")
if self isa AConcreteInitPropdef then
v.add_instr("init_table[{itpos}] = 1;")
var e = v.compile_expr(n_expr)
v.add_assignment(v.nmc.return_value, e)
end
- if v.cfc.in_closure then v.add_instr("closctx->has_broke = &({v.nmc.return_value});")
+ if v.cfc.closure == v.nmc then v.add_instr("closctx->has_broke = &({v.nmc.return_value});")
v.add_instr("goto {v.nmc.return_label};")
end
end
var e = v.compile_expr(n_expr)
v.add_assignment(v.nmc.break_value, e)
end
- if v.cfc.in_closure then v.add_instr("closctx->has_broke = &({v.nmc.break_value}); closctx->broke_value = *closctx->has_broke;")
+ if v.cfc.closure == v.nmc then v.add_instr("closctx->has_broke = &({v.nmc.break_value}); closctx->broke_value = *closctx->has_broke;")
v.add_instr("goto {v.nmc.break_label};")
end
end
redef class ADoExpr
redef meth compile_stmt(v)
do
- if n_block != null then
- v.compile_stmt(n_block)
- end
+ v.compile_stmt(n_block)
end
end
v.add_instr("if (UNTAG_Bool({e})) \{ /*if*/")
v.cfc.free_var(e)
v.indent
- var e = v.ensure_var(v.compile_expr(n_then))
+ var e = v.ensure_var(v.compile_expr(n_then), "Then value")
v.unindent
v.add_instr("} else \{ /*if*/")
v.cfc.free_var(e)
v.indent
- var e2 = v.ensure_var(v.compile_expr(n_else))
+ var e2 = v.ensure_var(v.compile_expr(n_else), "Else value")
v.add_assignment(e, e2)
v.unindent
v.add_instr("}")
var e = v.compile_expr(n_expr)
v.add_instr("if (!UNTAG_Bool({e})) break; /* while*/")
v.cfc.free_var(e)
- if n_block != null then
- v.compile_stmt(n_block)
- end
+ v.compile_stmt(n_block)
v.add_instr("{v.nmc.continue_label}: while(0);")
v.unindent
v.add_instr("}")
redef class AForExpr
redef meth compile_inside_block(v)
do
- v.compile_stmt(n_vardecl)
- end
-end
-
-redef class AForVardeclExpr
- redef meth compile_stmt(v)
- do
var e = v.compile_expr(n_expr)
- var prop = n_expr.stype.local_class.select_method(once "iterator".to_symbol)
- if prop == null then
- printl("No iterator")
- return
- end
- var ittype = prop.signature.return_type
+ var ittype = meth_iterator.signature.return_type
v.cfc.free_var(e)
- var iter = v.cfc.get_var
- v.add_assignment(iter, prop.compile_call(v, [e]))
- var prop2 = ittype.local_class.select_method(once "is_ok".to_symbol)
- if prop2 == null then
- printl("No is_ok")
- return
- end
- var prop3 = ittype.local_class.select_method(once "item".to_symbol)
- if prop3 == null then
- printl("No item")
- return
- end
- var prop4 = ittype.local_class.select_method(once "next".to_symbol)
- if prop4 == null then
- printl("No next")
- return
- end
+ var iter = v.cfc.get_var("For iterator")
+ v.add_assignment(iter, meth_iterator.compile_expr_call(v, [e]))
v.add_instr("while (true) \{ /*for*/")
v.indent
- var ok = v.cfc.get_var
- v.add_assignment(ok, prop2.compile_call(v, [iter]))
+ var ok = v.cfc.get_var("For 'is_ok' result")
+ v.add_assignment(ok, meth_is_ok.compile_expr_call(v, [iter]))
v.add_instr("if (!UNTAG_Bool({ok})) break; /*for*/")
v.cfc.free_var(ok)
- var e = prop3.compile_call(v, [iter])
- e = v.ensure_var(e)
+ var e = meth_item.compile_expr_call(v, [iter])
+ e = v.ensure_var(e, "For item")
var cname = v.cfc.register_variable(variable)
v.add_assignment(cname, e)
- var par = parent
- assert par isa AForExpr
- var n_block = par.n_block
- if n_block != null then
- v.compile_stmt(n_block)
- end
+ v.compile_stmt(n_block)
v.add_instr("{v.nmc.continue_label}: while(0);")
- e = prop4.compile_call(v, [iter])
- assert e == null
+ meth_next.compile_stmt_call(v, [iter])
v.unindent
v.add_instr("}")
v.add_instr("{v.nmc.break_label}: while(0);")
do
var e1 = v.cfc.varname(variable)
var e2 = v.compile_expr(n_value)
- var e3 = assign_method.compile_call(v, [e1, e2])
+ var e3 = assign_method.compile_expr_call(v, [e1, e2])
v.add_assignment(v.cfc.varname(variable), "{e3} /*{variable.name}*/")
end
end
redef class AOrExpr
redef meth compile_expr(v)
do
- var e = v.ensure_var(v.compile_expr(n_expr))
+ var e = v.ensure_var(v.compile_expr(n_expr), "Left 'or' operand")
v.add_instr("if (!UNTAG_Bool({e})) \{ /* or */")
v.cfc.free_var(e)
v.indent
redef class AAndExpr
redef meth compile_expr(v)
do
- var e = v.ensure_var(v.compile_expr(n_expr))
+ var e = v.ensure_var(v.compile_expr(n_expr), "Left 'and' operand")
v.add_instr("if (UNTAG_Bool({e})) \{ /* and */")
v.cfc.free_var(e)
v.indent
redef class AStringFormExpr
redef meth compile_expr(v)
do
- var prop = stype.local_class.select_method(once "with_native".to_symbol)
compute_string_info
- return prop.compile_constructor_call(v, stype , ["BOX_NativeString(\"{_cstring}\")", "TAG_Int({_cstring_length})"])
+ var i = v.new_number
+ var cvar = v.cfc.get_var("Once String constant")
+ v.add_decl("static val_t once_value_{i} = NIT_NULL; /* Once value for string {cvar}*/")
+ v.add_instr("if (once_value_{i} != NIT_NULL) {cvar} = once_value_{i};")
+ v.add_instr("else \{")
+ v.indent
+ v.cfc.free_var(cvar)
+ var e = meth_with_native.compile_constructor_call(v, stype , ["BOX_NativeString(\"{_cstring}\")", "TAG_Int({_cstring_length})"])
+ v.add_assignment(cvar, e)
+ v.add_instr("once_value_{i} = {cvar};")
+ v.unindent
+ v.add_instr("}")
+ return cvar
end
# The raw string value
do
var len = 0
var str = string_text
- var res = new String
+ var res = new Buffer
var i = 0
while i < str.length do
var c = str[i]
res.add(c)
i = i + 1
end
- _cstring = res
+ _cstring = res.to_s
_cstring_length = len
end
end
redef class ASuperstringExpr
redef meth compile_expr(v)
do
- var prop = stype.local_class.select_method(once "init".to_symbol)
- var recv = prop.compile_constructor_call(v, stype, new Array[String])
-
- var prop2 = stype.local_class.select_method(once "append".to_symbol)
+ var array = meth_with_capacity.compile_constructor_call(v, atype, ["TAG_Int({n_exprs.length})"])
+ array = v.ensure_var(array, "Array (for super-string)")
- var prop3 = stype.local_class.select_method(once "to_s".to_symbol)
for ne in n_exprs do
- var e = v.ensure_var(v.compile_expr(ne))
+ var e = v.ensure_var(v.compile_expr(ne), "super-string element")
if ne.stype != stype then
- v.add_assignment(e, prop3.compile_call(v, [e]))
+ v.cfc.free_var(e)
+ e = meth_to_s.compile_expr_call(v, [e])
end
- prop2.compile_call(v, [recv, e])
+ v.cfc.free_var(e)
+ meth_add.compile_stmt_call(v, [array, e])
end
- return recv
+ return meth_to_s.compile_expr_call(v, [array])
end
end
redef class AArrayExpr
redef meth compile_expr(v)
do
- var prop = stype.local_class.select_method(once "with_capacity".to_symbol)
- var recv = prop.compile_constructor_call(v, stype, ["TAG_Int({n_exprs.length})"])
+ var recv = meth_with_capacity.compile_constructor_call(v, stype, ["TAG_Int({n_exprs.length})"])
+ recv = v.ensure_var(recv, "Literal array")
- var prop2 = stype.local_class.select_method(once "add".to_symbol)
for ne in n_exprs do
var e = v.compile_expr(ne)
- prop2.compile_call(v, [recv, e])
+ meth_add.compile_stmt_call(v, [recv, e])
end
return recv
end
redef class ARangeExpr
redef meth compile_expr(v)
do
- var prop = stype.local_class.select_method(propname)
var e = v.compile_expr(n_expr)
var e2 = v.compile_expr(n_expr2)
- return prop.compile_constructor_call(v, stype, [e, e2])
+ return meth_init.compile_constructor_call(v, stype, [e, e2])
end
- # The constructor that must be used for the range
- protected meth propname: Symbol is abstract
-end
-
-redef class ACrangeExpr
- redef meth propname do return once "init".to_symbol
-end
-redef class AOrangeExpr
- redef meth propname do return once "without_last".to_symbol
end
redef class ASuperExpr
redef meth compile_stmt(v)
do
- var e = compile_expr(v)
- if e != null then v.add_instr("{e};")
+ var e = intern_compile_call(v)
+ if e != null then
+ v.add_instr(e + ";")
+ end
end
redef meth compile_expr(v)
do
+ var e = intern_compile_call(v)
+ assert e != null
+ return e
+ end
+
+ private meth intern_compile_call(v: CompilerVisitor): String
+ do
var arity = v.nmc.method_params.length - 1
if init_in_superclass != null then
arity = init_in_superclass.signature.arity
end
#return "{prop.cname}({args.join(", ")}) /*super {prop.local_class}::{prop.name}*/"
if init_in_superclass != null then
- return init_in_superclass.compile_call(v, args)
+ return init_in_superclass.intern_compile_call(v, args)
else
if prop.global.is_init then args.add("init_table")
return prop.compile_super_call(v, args)
var e1 = v.compile_expr(n_expr)
var e2 = prop.compile_access(v, e1)
var e3 = v.compile_expr(n_value)
- var e4 = assign_method.compile_call(v, [e2, e3])
+ var e4 = assign_method.compile_expr_call(v, [e2, e3])
v.add_assignment(e2, e4)
end
end
+redef class AAbsSendExpr
+ # Compile each argument and add them to the array
+ meth compile_arguments_in(v: CompilerVisitor, cargs: Array[String])
+ do
+ for a in arguments do
+ cargs.add(v.compile_expr(a))
+ end
+ end
+
+end
+
redef class ASendExpr
- redef meth compile_expr(v)
+ private meth intern_compile_call(v: CompilerVisitor): String
do
var recv = v.compile_expr(n_expr)
var cargs = new Array[String]
cargs.add(recv)
- for a in arguments do
- cargs.add(v.compile_expr(a))
- end
+ compile_arguments_in(v, cargs)
var e: String
if prop_signature.closures.is_empty then
- e = prop.compile_call(v, cargs)
+ e = prop.intern_compile_call(v, cargs)
else
- var cd = closure_defs
- var arity = 0
- if cd != null then arity = cd.length
- var closcns = new Array[String]
- var ve: String = null
-
- # Prepare result value.
- # In case of procedure, the return value is still used to intercept breaks
- var old_bv = v.nmc.break_value
- ve = v.cfc.get_var
- v.nmc.break_value = ve
-
- # Compile closure to c function
- for i in [0..arity[ do
- var cn = cd[i].compile_closure(v, prop.closure_cname(i))
- closcns.add(cn)
- cargs.add(cn)
- end
- for i in [arity..prop_signature.closures.length[ do
- cargs.add("NULL")
- end
-
- v.nmc.break_value = old_bv
-
- # Call
- e = prop.compile_call(v, cargs)
- if e != null then
- v.add_assignment(ve, e)
- e = ve
- end
-
- # Intercept returns and breaks
- for i in [0..arity[ do
- # A break or a return is intercepted
- v.add_instr("if ({closcns[i]}->has_broke != NULL) \{")
- v.indent
- # A passtrought break or a return is intercepted: go the the next closure
- v.add_instr("if ({closcns[i]}->has_broke != &({ve})) \{")
- v.indent
- if v.cfc.in_closure then v.add_instr("closctx->has_broke = {closcns[i]}->has_broke; closctx->broke_value = {closcns[i]}->broke_value;")
- v.add_instr("goto {v.nmc.return_label};")
- v.unindent
- # A direct break is interpected
- if e != null then
- # overwrite the returned value in a function
- v.add_instr("\} else {ve} = {closcns[i]}->broke_value;")
- else
- # Do nothing in a procedure
- v.add_instr("\}")
- end
- v.unindent
- v.add_instr("\}")
- end
+ e = prop.compile_call_and_closures(v, cargs, closure_defs)
end
if prop.global.is_init then
return e
end
+ redef meth compile_expr(v)
+ do
+ var e = intern_compile_call(v)
+ assert e != null
+ return e
+ end
+
redef meth compile_stmt(v)
do
- var e = compile_expr(v)
+ var e = intern_compile_call(v)
if e != null then
v.add_instr(e + ";")
end
end
redef class ASendReassignExpr
- redef meth compile_expr(v)
+ redef meth compile_expr(v) do abort
+
+ redef meth compile_stmt(v)
do
var recv = v.compile_expr(n_expr)
var cargs = new Array[String]
cargs.add(recv)
- for a in arguments do
- cargs.add(v.compile_expr(a))
- end
+ compile_arguments_in(v, cargs)
- var e2 = read_prop.compile_call(v, cargs)
+ var e2 = read_prop.compile_expr_call(v, cargs)
var e3 = v.compile_expr(n_value)
- var e4 = assign_method.compile_call(v, [e2, e3])
+ var e4 = assign_method.compile_expr_call(v, [e2, e3])
cargs.add(e4)
- return prop.compile_call(v, cargs)
+ prop.compile_stmt_call(v, cargs)
end
end
redef meth compile_expr(v)
do
var cargs = new Array[String]
- for a in arguments do
- cargs.add(v.compile_expr(a))
- end
+ compile_arguments_in(v, cargs)
return prop.compile_constructor_call(v, stype, cargs)
end
+
+ redef meth compile_stmt(v) do abort
end
redef class PClosureDef
v.ctx = new CContext
v.out_contexts.add(v.ctx)
- var cfc_old = v.cfc.in_closure
- v.cfc.in_closure = true
+ var cfc_old = v.cfc.closure
+ v.cfc.closure = v.nmc
var old_rv = v.nmc.return_value
var old_bv = v.nmc.break_value
- if not cfc_old then
+ if cfc_old == null then
v.nmc.return_value = "closctx->{old_rv}"
v.nmc.break_value = "closctx->{old_bv}"
end
v.add_instr("}")
v.ctx = ctx_old
- v.cfc.in_closure = cfc_old
+ v.cfc.closure = cfc_old
v.nmc.return_value = old_rv
v.nmc.break_value = old_bv
# Build closure
var closcnv = "wbclos{v.new_number}"
- v.add_decl("struct {closcn} {closcnv} = \{{cname}, NULL\};")
- if cfc_old then
+ v.add_decl("struct WBT_ {closcnv};")
+ v.add_instr("{closcnv}.fun = (fun_t){cname};")
+ v.add_instr("{closcnv}.has_broke = NULL;")
+ if cfc_old != null then
v.add_instr("{closcnv}.variable = closctx->variable;")
v.add_instr("{closcnv}.closurevariable = closctx->closurevariable;")
else
protected meth decl_csignature(v: CompilerVisitor, args: Array[String], closcn: String): String
do
var params = new Array[String]
- params.add("struct {closcn}* closctx")
+ params.add("struct WBT_ *closctx")
for i in [0..closure.signature.arity[ do
var p = "val_t {args[i]}"
params.add(p)
end
var p = params.join(", ")
var s = "{ret} {cname}({p})"
- v.add_decl("struct {closcn};")
v.add_decl("typedef {ret} (* {cname}_t)({p});")
v.add_decl(s + ";")
return s
var old_cl = v.nmc.continue_label
var old_bl = v.nmc.break_label
- v.nmc.continue_value = v.cfc.get_var
+ v.nmc.continue_value = v.cfc.get_var("Continue value and escape marker")
v.nmc.continue_label = "continue_label{v.new_number}"
v.nmc.break_label = v.nmc.return_label
- if n_expr != null then v.compile_stmt(n_expr)
+ v.compile_stmt(n_expr)
v.add_instr("{v.nmc.continue_label}: while(false);")
var old_cl = v.nmc.continue_label
var old_bl = v.nmc.break_label
- v.nmc.continue_value = v.cfc.get_var
+ v.nmc.continue_value = v.cfc.get_var("Continue value and escape marker")
v.nmc.continue_label = "continue_label{v.new_number}"
v.nmc.break_label = v.nmc.return_label
- if n_expr != null then v.compile_stmt(n_expr)
+ v.compile_stmt(n_expr)
v.add_instr("{v.nmc.continue_label}: while(false);")
end
redef class AClosureCallExpr
- redef meth compile_expr(v)
+ redef meth intern_compile_call(v)
do
var cargs = new Array[String]
- for a in arguments do cargs.add(v.compile_expr(a))
+ compile_arguments_in(v, cargs)
var va: String = null
- if variable.closure.signature.return_type != null then va = v.cfc.get_var
+ if variable.closure.signature.return_type != null then va = v.cfc.get_var("Closure call result value")
if variable.closure.is_optional then
v.add_instr("if({v.cfc.varname(variable)}==NULL) \{")
v.indent
end
- var ivar = "(({variable.ctypename})({v.cfc.varname(variable)}))"
+ var ivar = v.cfc.varname(variable)
var cargs2 = [ivar]
cargs2.append(cargs)
- var s = "({ivar}->fun({cargs2.join(", ")})) /* Invoke closure {variable} */"
+ var s = "(({variable.ctypename})({ivar}->fun))({cargs2.join(", ")}) /* Invoke closure {variable} */"
if va != null then
v.add_assignment(va, s)
else
if n_closure_defs != null and n_closure_defs.length == 1 then do
n_closure_defs.first.do_compile_inside(v, null)
end
- if v.cfc.in_closure then v.add_instr("if ({ivar}->has_broke) \{ closctx->has_broke = {ivar}->has_broke; closctx->broke_value = {ivar}->broke_value;\}")
+ if v.cfc.closure == v.nmc then v.add_instr("if ({ivar}->has_broke) \{ closctx->has_broke = {ivar}->has_broke; closctx->broke_value = {ivar}->broke_value;\}")
v.add_instr("goto {v.nmc.return_label};")
v.unindent
v.add_instr("\}")
redef meth compile_expr(v)
do
var i = v.new_number
- var cvar = v.cfc.get_var
+ var cvar = v.cfc.get_var("Once expression result")
v.add_decl("static val_t once_value_{i}; static int once_bool_{i}; /* Once value for {cvar}*/")
v.add_instr("if (once_bool_{i}) {cvar} = once_value_{i};")
v.add_instr("else \{")