cgen: fix `cannot take rvalue` error of interface (#10040)
parent
e0a3c5384f
commit
a9435f3c25
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@ -1768,6 +1768,26 @@ fn (mut g Gen) write_sumtype_casting_fn(got_ ast.Type, exp_ ast.Type) {
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g.auto_fn_definitions << sb.str()
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}
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fn (mut g Gen) call_cfn_for_casting_expr(fname string, expr ast.Expr, exp_is_ptr bool, exp_styp string, got_is_ptr bool, got_styp string) {
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mut rparen_n := 1
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if exp_is_ptr {
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g.write('HEAP($exp_styp, ')
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rparen_n++
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}
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g.write('${fname}(')
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if !got_is_ptr {
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if !expr.is_lvalue()
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|| (expr is ast.Ident && is_simple_define_const((expr as ast.Ident).obj)) {
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g.write('ADDR($got_styp, (')
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rparen_n += 2
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} else {
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g.write('&')
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}
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}
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g.expr(expr)
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g.write(')'.repeat(rparen_n))
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}
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// use instead of expr() when you need to cast to a different type
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fn (mut g Gen) expr_with_cast(expr ast.Expr, got_type_raw ast.Type, expected_type ast.Type) {
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got_type := g.table.mktyp(got_type_raw)
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@ -1787,18 +1807,9 @@ fn (mut g Gen) expr_with_cast(expr ast.Expr, got_type_raw ast.Type, expected_typ
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&& !expected_type.has_flag(.optional) {
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got_styp := g.cc_type(got_type, true)
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exp_styp := g.cc_type(expected_type, true)
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if expected_is_ptr {
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g.write('HEAP($exp_styp, ')
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}
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g.write('I_${got_styp}_to_Interface_${exp_styp}(')
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if !got_is_ptr {
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g.write('&')
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}
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g.expr(expr)
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g.write(')')
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if expected_is_ptr {
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g.write(')')
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}
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fname := 'I_${got_styp}_to_Interface_$exp_styp'
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g.call_cfn_for_casting_expr(fname, expr, expected_is_ptr, exp_styp, got_is_ptr,
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got_styp)
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return
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}
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// cast to sum type
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@ -1827,21 +1838,9 @@ fn (mut g Gen) expr_with_cast(expr ast.Expr, got_type_raw ast.Type, expected_typ
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g.expr(expr)
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} else {
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g.write_sumtype_casting_fn(got_type, expected_type)
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if expected_is_ptr {
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g.write('HEAP($exp_sym.cname, ')
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}
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g.write('${got_sym.cname}_to_sumtype_${exp_sym.cname}(')
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if !got_is_ptr {
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g.write('ADDR($got_styp, (')
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g.expr(expr)
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g.write(')))')
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} else {
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g.expr(expr)
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g.write(')')
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}
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if expected_is_ptr {
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g.write(')')
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}
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fname := '${got_sym.cname}_to_sumtype_$exp_sym.cname'
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g.call_cfn_for_casting_expr(fname, expr, expected_is_ptr, exp_sym.cname,
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got_is_ptr, got_styp)
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}
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return
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}
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@ -5113,11 +5112,6 @@ fn (mut g Gen) const_decl(node ast.ConstDecl) {
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*/
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field_expr := field.expr
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match field.expr {
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ast.CharLiteral, ast.FloatLiteral, ast.IntegerLiteral {
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// "Simple" expressions are not going to need multiple statements,
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// only the ones which are inited later, so it's safe to use expr_string
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g.const_decl_simple_define(name, g.expr_string(field_expr))
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}
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ast.ArrayInit {
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if field.expr.is_fixed {
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styp := g.typ(field.expr.typ)
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@ -5147,12 +5141,28 @@ fn (mut g Gen) const_decl(node ast.ConstDecl) {
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}
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}
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else {
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g.const_decl_init_later(field.mod, name, field.expr, field.typ, false)
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if is_simple_define_const(field) {
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// "Simple" expressions are not going to need multiple statements,
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// only the ones which are inited later, so it's safe to use expr_string
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g.const_decl_simple_define(name, g.expr_string(field_expr))
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} else {
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g.const_decl_init_later(field.mod, name, field.expr, field.typ, false)
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}
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}
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}
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}
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}
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fn is_simple_define_const(obj ast.ScopeObject) bool {
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if obj is ast.ConstField {
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return match obj.expr {
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ast.CharLiteral, ast.FloatLiteral, ast.IntegerLiteral { true }
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else { false }
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}
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}
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return false
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}
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fn (mut g Gen) const_decl_simple_define(name string, val string) {
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// Simple expressions should use a #define
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// so that we don't pollute the binary with unnecessary global vars
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@ -7,6 +7,10 @@ mut:
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breed string
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}
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fn new_cat(breed string) Cat {
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return Cat{breed}
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}
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fn (c &Cat) name() string {
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if c.breed != '' {
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assert c.breed == 'Persian'
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@ -101,10 +105,12 @@ fn test_perform_speak() {
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perform_speak(Cat{
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breed: 'Persian'
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})
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perform_speak(new_cat('Persian'))
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perform_speak_on_ptr(cat)
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perform_speak_on_ptr(Cat{
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breed: 'Persian'
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})
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perform_speak_on_ptr(new_cat('Persian'))
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handle_animals([dog, cat])
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/*
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f := Foo {
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@ -56,9 +56,13 @@ fn test_sum_type_cast() {
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fn test_sum_types() {
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b := parse_bool()
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handle_expr(b)
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handle_expr(parse_bool())
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de := DeclExprA{}
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handle_expr(de)
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handle_decl_expr(de)
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handle_expr(DeclExprA{})
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handle_decl_expr(DeclExprA{})
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}
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/*
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