Commit 1d4c66b56b
Changed files (5)
src/analyze.cpp
@@ -974,7 +974,6 @@ static void resolve_function_proto(CodeGen *g, AstNode *node, FnTableEntry *fn_t
} else {
symbol_name = buf_sprintf("_%s", buf_ptr(&fn_table_entry->symbol_name));
}
- // TODO mangle the name if it's a generic instance
fn_table_entry->fn_value = LLVMAddFunction(g->module, buf_ptr(symbol_name),
fn_type->data.fn.raw_type_ref);
@@ -2828,6 +2827,60 @@ static bool eval_bool_bin_op_bool(bool a, BinOpType bin_op, bool b) {
}
}
+static bool const_values_equal(ConstExprValue *a, ConstExprValue *b, TypeTableEntry *type_entry) {
+ switch (type_entry->id) {
+ case TypeTableEntryIdEnum:
+ {
+ ConstEnumValue *enum1 = &a->data.x_enum;
+ ConstEnumValue *enum2 = &b->data.x_enum;
+ if (enum1->tag == enum2->tag) {
+ TypeEnumField *enum_field = &type_entry->data.enumeration.fields[enum1->tag];
+ if (type_has_bits(enum_field->type_entry)) {
+ zig_panic("TODO const expr analyze enum special value for equality");
+ } else {
+ return true;
+ }
+ }
+ return false;
+ }
+ case TypeTableEntryIdMetaType:
+ return a->data.x_type == b->data.x_type;
+ case TypeTableEntryIdVoid:
+ return true;
+ case TypeTableEntryIdPureError:
+ return a->data.x_err.err == b->data.x_err.err;
+ case TypeTableEntryIdFn:
+ return a->data.x_fn == b->data.x_fn;
+ case TypeTableEntryIdBool:
+ return a->data.x_bool == b->data.x_bool;
+ case TypeTableEntryIdInt:
+ case TypeTableEntryIdFloat:
+ case TypeTableEntryIdNumLitFloat:
+ case TypeTableEntryIdNumLitInt:
+ return bignum_cmp_eq(&a->data.x_bignum, &b->data.x_bignum);
+ case TypeTableEntryIdPointer:
+ zig_panic("TODO");
+ case TypeTableEntryIdArray:
+ zig_panic("TODO");
+ case TypeTableEntryIdStruct:
+ zig_panic("TODO");
+ case TypeTableEntryIdUndefLit:
+ zig_panic("TODO");
+ case TypeTableEntryIdMaybe:
+ zig_panic("TODO");
+ case TypeTableEntryIdErrorUnion:
+ zig_panic("TODO");
+ case TypeTableEntryIdTypeDecl:
+ zig_panic("TODO");
+ case TypeTableEntryIdNamespace:
+ zig_panic("TODO");
+ case TypeTableEntryIdGenericFn:
+ case TypeTableEntryIdInvalid:
+ case TypeTableEntryIdUnreachable:
+ zig_unreachable();
+ }
+}
+
static TypeTableEntry *analyze_bool_bin_op_expr(CodeGen *g, ImportTableEntry *import, BlockContext *context,
AstNode *node)
{
@@ -2887,39 +2940,8 @@ static TypeTableEntry *analyze_bool_bin_op_expr(CodeGen *g, ImportTableEntry *im
}
answer = bignum_cmp(&op1_val->data.x_bignum, &op2_val->data.x_bignum);
-
- } else if (resolved_type->id == TypeTableEntryIdEnum) {
- ConstEnumValue *enum1 = &op1_val->data.x_enum;
- ConstEnumValue *enum2 = &op2_val->data.x_enum;
- bool are_equal = false;
- if (enum1->tag == enum2->tag) {
- TypeEnumField *enum_field = &op1_type->data.enumeration.fields[enum1->tag];
- if (type_has_bits(enum_field->type_entry)) {
- zig_panic("TODO const expr analyze enum special value for equality");
- } else {
- are_equal = true;
- }
- }
- if (bin_op_type == BinOpTypeCmpEq) {
- answer = are_equal;
- } else if (bin_op_type == BinOpTypeCmpNotEq) {
- answer = !are_equal;
- } else {
- zig_unreachable();
- }
- } else if (resolved_type->id == TypeTableEntryIdPureError) {
- bool are_equal = op1_val->data.x_err.err == op2_val->data.x_err.err;
-
- if (bin_op_type == BinOpTypeCmpEq) {
- answer = are_equal;
- } else if (bin_op_type == BinOpTypeCmpNotEq) {
- answer = !are_equal;
- } else {
- zig_unreachable();
- }
- } else if (resolved_type->id == TypeTableEntryIdFn) {
- bool are_equal = (op1_val->data.x_fn == op2_val->data.x_fn);
-
+ } else {
+ bool are_equal = const_values_equal(op1_val, op2_val, resolved_type);
if (bin_op_type == BinOpTypeCmpEq) {
answer = are_equal;
} else if (bin_op_type == BinOpTypeCmpNotEq) {
@@ -2927,8 +2949,6 @@ static TypeTableEntry *analyze_bool_bin_op_expr(CodeGen *g, ImportTableEntry *im
} else {
zig_unreachable();
}
- } else {
- zig_unreachable();
}
bool depends_on_compile_var = op1_val->depends_on_compile_var || op2_val->depends_on_compile_var;
@@ -4682,7 +4702,6 @@ static TypeTableEntry *analyze_generic_fn_call(CodeGen *g, ImportTableEntry *imp
generic_param_value->node = *param_node;
}
-
auto entry = g->generic_table.maybe_get(generic_fn_type_id);
if (entry) {
AstNode *impl_decl_node = entry->value;
@@ -4693,9 +4712,10 @@ static TypeTableEntry *analyze_generic_fn_call(CodeGen *g, ImportTableEntry *imp
// make a type from the generic parameters supplied
assert(decl_node->type == NodeTypeFnProto);
- AstNode *impl_fn_def_node = ast_clone_subtree(decl_node->data.fn_proto.fn_def_node);
+ AstNode *impl_fn_def_node = ast_clone_subtree(decl_node->data.fn_proto.fn_def_node, &g->next_node_index);
AstNode *impl_decl_node = impl_fn_def_node->data.fn_def.fn_proto;
- impl_decl_node->data.fn_proto.fn_def_node = impl_fn_def_node;
+
+
preview_fn_proto_instance(g, import, impl_decl_node, child_context);
@@ -6233,7 +6253,20 @@ uint32_t generic_fn_type_id_hash(GenericFnTypeId *id) {
}
bool generic_fn_type_id_eql(GenericFnTypeId *a, GenericFnTypeId *b) {
- // TODO
+ if (a->decl_node != b->decl_node) return false;
+ assert(a->generic_param_count == b->generic_param_count);
+ for (int i = 0; i < a->generic_param_count; i += 1) {
+ GenericParamValue *a_val = &a->generic_params[i];
+ GenericParamValue *b_val = &b->generic_params[i];
+ assert(a_val->type == b_val->type);
+ ConstExprValue *a_const_val = &get_resolved_expr(a_val->node)->const_val;
+ ConstExprValue *b_const_val = &get_resolved_expr(b_val->node)->const_val;
+ assert(a_const_val->ok);
+ assert(b_const_val->ok);
+ if (!const_values_equal(a_const_val, b_const_val, a_val->type)) {
+ return false;
+ }
+ }
return true;
}
src/parser.cpp
@@ -2842,20 +2842,231 @@ void normalize_parent_ptrs(AstNode *node) {
ast_visit_node_children(node, normalize_parent_ptrs_visit, nullptr);
}
-static AstNode *clone_node(AstNode *old_node) {
- AstNode *new_node = allocate_nonzero<AstNode>(1);
- memcpy(new_node, old_node, sizeof(AstNode));
- return new_node;
+static void clone_subtree_list(ZigList<AstNode *> *dest, ZigList<AstNode *> *src, uint32_t *next_node_index) {
+ memset(dest, 0, sizeof(ZigList<AstNode *>));
+ dest->resize(src->length);
+ for (int i = 0; i < src->length; i += 1) {
+ dest->at(i) = ast_clone_subtree(src->at(i), next_node_index);
+ }
}
-static void ast_clone_subtree_visit(AstNode **node, void *context) {
- *node = clone_node(*node);
- (*node)->parent_field = node;
- ast_visit_node_children(*node, ast_clone_subtree_visit, nullptr);
+static void clone_subtree_list_ptr(ZigList<AstNode *> **dest_ptr, ZigList<AstNode *> *src,
+ uint32_t *next_node_index)
+{
+ if (src) {
+ ZigList<AstNode *> *dest = allocate<ZigList<AstNode *>>(1);
+ *dest_ptr = dest;
+ clone_subtree_list(dest, src, next_node_index);
+ }
+}
+
+static void clone_subtree_field(AstNode **dest, AstNode *src, uint32_t *next_node_index) {
+ *dest = ast_clone_subtree(src, next_node_index);
+ (*dest)->parent_field = dest;
+}
+
+static void clone_subtree_tld(TopLevelDecl *dest, TopLevelDecl *src, uint32_t *next_node_index) {
+ clone_subtree_list_ptr(&dest->directives, src->directives, next_node_index);
}
-AstNode *ast_clone_subtree(AstNode *old_node) {
- AstNode *new_node = clone_node(old_node);
- ast_visit_node_children(new_node, ast_clone_subtree_visit, nullptr);
+AstNode *ast_clone_subtree(AstNode *old_node, uint32_t *next_node_index) {
+ AstNode *new_node = allocate_nonzero<AstNode>(1);
+ memcpy(new_node, old_node, sizeof(AstNode));
+ new_node->create_index = *next_node_index;
+ *next_node_index += 1;
+
+ switch (new_node->type) {
+ case NodeTypeRoot:
+ clone_subtree_list(&new_node->data.root.top_level_decls, &old_node->data.root.top_level_decls,
+ next_node_index);
+ break;
+ case NodeTypeFnProto:
+ clone_subtree_tld(&new_node->data.fn_proto.top_level_decl, &old_node->data.fn_proto.top_level_decl,
+ next_node_index);
+ clone_subtree_field(&new_node->data.fn_proto.return_type, old_node->data.fn_proto.return_type,
+ next_node_index);
+ clone_subtree_list(&new_node->data.fn_proto.generic_params,
+ &old_node->data.fn_proto.generic_params, next_node_index);
+ clone_subtree_list(&new_node->data.fn_proto.params, &old_node->data.fn_proto.params,
+ next_node_index);
+
+ break;
+ case NodeTypeFnDef:
+ clone_subtree_field(&new_node->data.fn_def.fn_proto, old_node->data.fn_def.fn_proto, next_node_index);
+ new_node->data.fn_def.fn_proto->data.fn_proto.fn_def_node = new_node;
+ clone_subtree_field(&new_node->data.fn_def.body, old_node->data.fn_def.body, next_node_index);
+ break;
+ case NodeTypeFnDecl:
+ clone_subtree_field(&new_node->data.fn_decl.fn_proto, old_node->data.fn_decl.fn_proto,
+ next_node_index);
+ break;
+ case NodeTypeParamDecl:
+ clone_subtree_field(&new_node->data.param_decl.type, old_node->data.param_decl.type, next_node_index);
+ break;
+ case NodeTypeBlock:
+ clone_subtree_list(&new_node->data.block.statements, &old_node->data.block.statements,
+ next_node_index);
+ break;
+ case NodeTypeDirective:
+ clone_subtree_field(&new_node->data.directive.expr, old_node->data.directive.expr, next_node_index);
+ break;
+ case NodeTypeReturnExpr:
+ clone_subtree_field(&new_node->data.return_expr.expr, old_node->data.return_expr.expr, next_node_index);
+ break;
+ case NodeTypeDefer:
+ clone_subtree_field(&new_node->data.defer.expr, old_node->data.defer.expr, next_node_index);
+ break;
+ case NodeTypeVariableDeclaration:
+ clone_subtree_list_ptr(&new_node->data.variable_declaration.top_level_decl.directives,
+ old_node->data.variable_declaration.top_level_decl.directives, next_node_index);
+ clone_subtree_field(&new_node->data.variable_declaration.type, old_node->data.variable_declaration.type, next_node_index);
+ clone_subtree_field(&new_node->data.variable_declaration.expr, old_node->data.variable_declaration.expr, next_node_index);
+ break;
+ case NodeTypeTypeDecl:
+ clone_subtree_list_ptr(&new_node->data.type_decl.top_level_decl.directives,
+ old_node->data.type_decl.top_level_decl.directives, next_node_index);
+ clone_subtree_field(&new_node->data.type_decl.child_type, old_node->data.type_decl.child_type, next_node_index);
+ break;
+ case NodeTypeErrorValueDecl:
+ // none
+ break;
+ case NodeTypeBinOpExpr:
+ clone_subtree_field(&new_node->data.bin_op_expr.op1, old_node->data.bin_op_expr.op1, next_node_index);
+ clone_subtree_field(&new_node->data.bin_op_expr.op2, old_node->data.bin_op_expr.op2, next_node_index);
+ break;
+ case NodeTypeUnwrapErrorExpr:
+ clone_subtree_field(&new_node->data.unwrap_err_expr.op1, old_node->data.unwrap_err_expr.op1, next_node_index);
+ clone_subtree_field(&new_node->data.unwrap_err_expr.symbol, old_node->data.unwrap_err_expr.symbol, next_node_index);
+ clone_subtree_field(&new_node->data.unwrap_err_expr.op2, old_node->data.unwrap_err_expr.op2, next_node_index);
+ break;
+ case NodeTypeNumberLiteral:
+ // none
+ break;
+ case NodeTypeStringLiteral:
+ // none
+ break;
+ case NodeTypeCharLiteral:
+ // none
+ break;
+ case NodeTypeSymbol:
+ // none
+ break;
+ case NodeTypePrefixOpExpr:
+ clone_subtree_field(&new_node->data.prefix_op_expr.primary_expr, old_node->data.prefix_op_expr.primary_expr, next_node_index);
+ break;
+ case NodeTypeFnCallExpr:
+ clone_subtree_field(&new_node->data.fn_call_expr.fn_ref_expr, old_node->data.fn_call_expr.fn_ref_expr, next_node_index);
+ clone_subtree_list(&new_node->data.fn_call_expr.params, &old_node->data.fn_call_expr.params, next_node_index);
+ break;
+ case NodeTypeArrayAccessExpr:
+ clone_subtree_field(&new_node->data.array_access_expr.array_ref_expr, old_node->data.array_access_expr.array_ref_expr, next_node_index);
+ clone_subtree_field(&new_node->data.array_access_expr.subscript, old_node->data.array_access_expr.subscript, next_node_index);
+ break;
+ case NodeTypeSliceExpr:
+ clone_subtree_field(&new_node->data.slice_expr.array_ref_expr, old_node->data.slice_expr.array_ref_expr, next_node_index);
+ clone_subtree_field(&new_node->data.slice_expr.start, old_node->data.slice_expr.start, next_node_index);
+ clone_subtree_field(&new_node->data.slice_expr.end, old_node->data.slice_expr.end, next_node_index);
+ break;
+ case NodeTypeFieldAccessExpr:
+ clone_subtree_field(&new_node->data.field_access_expr.struct_expr, old_node->data.field_access_expr.struct_expr, next_node_index);
+ break;
+ case NodeTypeUse:
+ clone_subtree_field(&new_node->data.use.expr, old_node->data.use.expr, next_node_index);
+ clone_subtree_list_ptr(&new_node->data.use.top_level_decl.directives,
+ old_node->data.use.top_level_decl.directives, next_node_index);
+ break;
+ case NodeTypeBoolLiteral:
+ // none
+ break;
+ case NodeTypeNullLiteral:
+ // none
+ break;
+ case NodeTypeUndefinedLiteral:
+ // none
+ break;
+ case NodeTypeIfBoolExpr:
+ clone_subtree_field(&new_node->data.if_bool_expr.condition, old_node->data.if_bool_expr.condition, next_node_index);
+ clone_subtree_field(&new_node->data.if_bool_expr.then_block, old_node->data.if_bool_expr.then_block, next_node_index);
+ clone_subtree_field(&new_node->data.if_bool_expr.else_node, old_node->data.if_bool_expr.else_node, next_node_index);
+ break;
+ case NodeTypeIfVarExpr:
+ clone_subtree_field(&new_node->data.if_var_expr.var_decl.type, old_node->data.if_var_expr.var_decl.type, next_node_index);
+ clone_subtree_field(&new_node->data.if_var_expr.var_decl.expr, old_node->data.if_var_expr.var_decl.expr, next_node_index);
+ clone_subtree_field(&new_node->data.if_var_expr.then_block, old_node->data.if_var_expr.then_block, next_node_index);
+ clone_subtree_field(&new_node->data.if_var_expr.else_node, old_node->data.if_var_expr.else_node, next_node_index);
+ break;
+ case NodeTypeWhileExpr:
+ clone_subtree_field(&new_node->data.while_expr.condition, old_node->data.while_expr.condition, next_node_index);
+ clone_subtree_field(&new_node->data.while_expr.body, old_node->data.while_expr.body, next_node_index);
+ break;
+ case NodeTypeForExpr:
+ clone_subtree_field(&new_node->data.for_expr.elem_node, old_node->data.for_expr.elem_node, next_node_index);
+ clone_subtree_field(&new_node->data.for_expr.array_expr, old_node->data.for_expr.array_expr, next_node_index);
+ clone_subtree_field(&new_node->data.for_expr.index_node, old_node->data.for_expr.index_node, next_node_index);
+ clone_subtree_field(&new_node->data.for_expr.body, old_node->data.for_expr.body, next_node_index);
+ break;
+ case NodeTypeSwitchExpr:
+ clone_subtree_field(&new_node->data.switch_expr.expr, old_node->data.switch_expr.expr, next_node_index);
+ clone_subtree_list(&new_node->data.switch_expr.prongs, &old_node->data.switch_expr.prongs,
+ next_node_index);
+ break;
+ case NodeTypeSwitchProng:
+ clone_subtree_list(&new_node->data.switch_prong.items, &old_node->data.switch_prong.items,
+ next_node_index);
+ clone_subtree_field(&new_node->data.switch_prong.var_symbol, old_node->data.switch_prong.var_symbol, next_node_index);
+ clone_subtree_field(&new_node->data.switch_prong.expr, old_node->data.switch_prong.expr, next_node_index);
+ break;
+ case NodeTypeSwitchRange:
+ clone_subtree_field(&new_node->data.switch_range.start, old_node->data.switch_range.start, next_node_index);
+ clone_subtree_field(&new_node->data.switch_range.end, old_node->data.switch_range.end, next_node_index);
+ break;
+ case NodeTypeLabel:
+ // none
+ break;
+ case NodeTypeGoto:
+ // none
+ break;
+ case NodeTypeBreak:
+ // none
+ break;
+ case NodeTypeContinue:
+ // none
+ break;
+ case NodeTypeAsmExpr:
+ zig_panic("TODO");
+ break;
+ case NodeTypeStructDecl:
+ clone_subtree_list(&new_node->data.struct_decl.fields, &old_node->data.struct_decl.fields,
+ next_node_index);
+ clone_subtree_list(&new_node->data.struct_decl.fns, &old_node->data.struct_decl.fns,
+ next_node_index);
+ clone_subtree_list_ptr(&new_node->data.struct_decl.top_level_decl.directives,
+ old_node->data.struct_decl.top_level_decl.directives, next_node_index);
+ break;
+ case NodeTypeStructField:
+ clone_subtree_field(&new_node->data.struct_field.type, old_node->data.struct_field.type, next_node_index);
+ clone_subtree_list_ptr(&new_node->data.struct_field.top_level_decl.directives,
+ old_node->data.struct_field.top_level_decl.directives, next_node_index);
+ break;
+ case NodeTypeContainerInitExpr:
+ clone_subtree_field(&new_node->data.container_init_expr.type, old_node->data.container_init_expr.type, next_node_index);
+ clone_subtree_list(&new_node->data.container_init_expr.entries,
+ &old_node->data.container_init_expr.entries, next_node_index);
+ break;
+ case NodeTypeStructValueField:
+ clone_subtree_field(&new_node->data.struct_val_field.expr, old_node->data.struct_val_field.expr, next_node_index);
+ break;
+ case NodeTypeArrayType:
+ clone_subtree_field(&new_node->data.array_type.size, old_node->data.array_type.size, next_node_index);
+ clone_subtree_field(&new_node->data.array_type.child_type, old_node->data.array_type.child_type, next_node_index);
+ break;
+ case NodeTypeErrorType:
+ // none
+ break;
+ case NodeTypeTypeLiteral:
+ // none
+ break;
+ }
+
return new_node;
}
src/parser.hpp
@@ -24,7 +24,7 @@ void ast_print(AstNode *node, int indent);
void normalize_parent_ptrs(AstNode *node);
-AstNode *ast_clone_subtree(AstNode *node);
+AstNode *ast_clone_subtree(AstNode *node, uint32_t *next_node_index);
void ast_visit_node_children(AstNode *node, void (*visit)(AstNode **, void *context), void *context);
#endif
std/rand.zig
@@ -1,11 +1,26 @@
// Mersenne Twister
const ARRAY_SIZE = 624;
-/// Use `rand_init` to initialize this state.
+/// Use `init` to initialize this state.
pub struct Rand {
array: [ARRAY_SIZE]u32,
index: isize,
+ /// Initialize random state with the given seed.
+ pub fn init(seed: u32) -> Rand {
+ var r: Rand = undefined;
+ r.index = 0;
+ r.array[0] = seed;
+ var i : isize = 1;
+ var prev_value: u64 = seed;
+ while (i < ARRAY_SIZE) {
+ r.array[i] = u32((prev_value ^ (prev_value << 30)) * 0x6c078965 + u32(i));
+ prev_value = r.array[i];
+ i += 1;
+ }
+ return r;
+ }
+
/// Get 32 bits of randomness.
pub fn get_u32(r: &Rand) -> u32 {
if (r.index == 0) {
@@ -85,20 +100,6 @@ pub struct Rand {
return bytes_left;
}
- /// Initialize random state with the given seed.
- pub fn init(seed: u32) -> Rand {
- var r: Rand = undefined;
- r.index = 0;
- r.array[0] = seed;
- var i : isize = 1;
- var prev_value: u64 = seed;
- while (i < ARRAY_SIZE) {
- r.array[i] = u32((prev_value ^ (prev_value << 30)) * 0x6c078965 + u32(i));
- prev_value = r.array[i];
- i += 1;
- }
- return r;
- }
}
#attribute("test")
test/self_hosted.zig
@@ -515,6 +515,7 @@ three)";
#attribute("test")
fn simple_generic_fn() {
assert(max(i32)(3, -1) == 3);
+ assert(max(f32)(0.123, 0.456) == 0.456);
}
fn max(T: type)(a: T, b: T) -> T {
@@ -530,6 +531,11 @@ fn constant_equal_function_pointers() {
fn empty_fn() {}
+#attribute("test")
+fn generic_function_equality() {
+ assert(max(i32) == max(i32));
+}
+
fn assert(b: bool) {
if (!b) unreachable{}