470 lines
15 KiB
C++
470 lines
15 KiB
C++
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Ast_Decl *get_or_instantiate_polymorph_type(Ast_Decl *poly, Array<Ast_Call_Item *> params) {
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return 0;
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}
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const unsigned AST_NODE_END = 128;
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struct Ast_Iter {
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Array<Ast *> stack;
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Ast *ast;
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Ast_Kind kind;
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bool skip_children;
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uint32_t visit_id;
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uint32_t di;
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};
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uint32_t Ast_Iter_VisitIDGen;
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Ast_Iter iterate_depth_first(Allocator *a, Ast *ast) {
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assert(ast);
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Ast_Iter result = {};
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result.stack = {a};
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result.ast = ast;
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result.kind = ast->kind;
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result.visit_id = ++Ast_Iter_VisitIDGen;
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return result;
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}
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void next(Ast_Iter *iter) {
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Ast *ast = iter->ast;
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ast->visit_id = iter->visit_id;
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if (iter->skip_children) {
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iter->skip_children = false;
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goto end_of_switch;
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}
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switch (iter->kind) {
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case AST_SCOPE: {
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Ast_Scope *node = (Ast_Scope *)ast;
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iter->stack.add(node);
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For(node->stmts) iter->stack.add(it);
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For(node->decls) iter->stack.add(it);
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} break;
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case AST_MODULE: break; // This happens when we import stuff
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case AST_FILE: invalid_codepath; break;
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case AST_IDENT:
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case AST_VALUE: {
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Ast_Atom *node = (Ast_Atom *)ast;
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} break;
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case AST_INDEX: {
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Ast_Index *node = (Ast_Index *)ast;
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iter->stack.add(node);
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iter->stack.add(node->index);
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iter->stack.add(node->expr);
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assert(node->index);
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assert(node->expr);
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} break;
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case AST_UNARY: {
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Ast_Unary *node = (Ast_Unary *)ast;
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iter->stack.add(node);
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iter->stack.add(node->expr);
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assert(node->expr);
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} break;
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case AST_BINARY: {
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Ast_Binary *node = (Ast_Binary *)ast;
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iter->stack.add(node);
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iter->stack.add(node->right);
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iter->stack.add(node->left);
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assert(node->right);
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assert(node->left);
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} break;
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case AST_CALL_ITEM: {
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Ast_Call_Item *node = (Ast_Call_Item *)ast;
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iter->stack.add(node);
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iter->stack.add(node->item);
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assert(node->item);
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if (node->call_flags & CALL_INDEX) {
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iter->stack.add(node->index);
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assert(node->index);
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}
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else if (node->call_flags & CALL_NAME) {
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iter->stack.add(node->name);
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assert(node->name);
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}
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} break;
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case AST_COMPOUND:
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case AST_CALL: {
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Ast_Call *node = (Ast_Call *)ast;
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iter->stack.add(node);
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For(node->exprs) iter->stack.add(it);
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if (node->name) iter->stack.add(node->name);
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} break;
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case AST_TYPE_OF:
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case AST_LENGTH_OF:
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case AST_ALIGN_OF:
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case AST_SIZE_OF:
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case AST_RUNTIME_ASSERT:
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case AST_CONSTANT_ASSERT: {
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Ast_Builtin *node = (Ast_Builtin *)ast;
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iter->stack.add(node);
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iter->stack.add(node->expr);
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assert(node->expr);
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} break;
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case AST_SWITCH: {
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Ast_Switch *node = (Ast_Switch *)ast;
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iter->stack.add(node);
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if (node->default_scope) iter->stack.add(node->default_scope);
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For(node->cases) iter->stack.add(it);
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iter->stack.add(node->value);
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assert(node->value);
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} break;
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case AST_SWITCH_CASE: {
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Ast_Switch_Case *node = (Ast_Switch_Case *)ast;
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iter->stack.add(node);
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iter->stack.add(node->scope);
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assert(node->scope);
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For(node->labels) iter->stack.add(it);
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} break;
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case AST_VAR_UNPACK: {
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Ast_Var_Unpack *node = (Ast_Var_Unpack *)ast;
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iter->stack.add(node);
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iter->stack.add(node->expr);
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assert(node->expr);
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For(node->vars) iter->stack.add(it);
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} break;
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case AST_PASS:
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case AST_BREAK: {
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Ast *node = (Ast *)ast;
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} break;
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case AST_NAMESPACE:
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case AST_STRUCT:
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case AST_UNION:
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case AST_ENUM:
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case AST_LAMBDA:
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case AST_TYPE: // @cleanup: what is this used for?
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case AST_CONST:
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case AST_VAR: {
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Ast_Decl *node = (Ast_Decl *)ast;
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iter->stack.add(node);
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if (node->scope) iter->stack.add(node->scope);
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if (node->expr) iter->stack.add(node->expr);
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if (node->typespec) iter->stack.add(node->typespec);
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// omitting polymorphs
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// omitting polymorph parameters
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} break;
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case AST_ARRAY: {
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Ast_Array *node = (Ast_Array *)ast;
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iter->stack.add(node);
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if (node->expr) iter->stack.add(node->expr);
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} break;
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case AST_FOR: {
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Ast_For *node = (Ast_For *)ast;
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iter->stack.add(node);
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iter->stack.add(node->scope);
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assert(node->scope);
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if (node->iter) iter->stack.add(node->iter);
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if (node->cond) iter->stack.add(node->cond);
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if (node->init) iter->stack.add(node->init);
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} break;
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case AST_IF: {
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Ast_If *node = (Ast_If *)ast;
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iter->stack.add(node);
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For(node->ifs) iter->stack.add(it);
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} break;
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case AST_IF_NODE: {
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Ast_If_Node *node = (Ast_If_Node *)ast;
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iter->stack.add(node);
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iter->stack.add(node->scope);
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assert(node->scope);
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if (node->expr) iter->stack.add(node->expr);
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if (node->init) iter->stack.add(node->init);
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} break;
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case AST_RETURN: {
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Ast_Return *node = (Ast_Return *)ast;
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iter->stack.add(node);
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For(node->expr) iter->stack.add(it);
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} break;
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case AST_LAMBDA_EXPR: {
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Ast_Lambda *node = (Ast_Lambda *)ast;
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iter->stack.add(node);
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if (node->scope) iter->stack.add(node->scope);
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For(node->ret) iter->stack.add(it);
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For(node->args) iter->stack.add(it);
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} break;
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default: assert(!"Invalid default case");
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}
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end_of_switch:
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if (iter->stack.len <= 0) {
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iter->ast = 0;
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iter->kind = AST_NONE;
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iter->stack.dealloc();
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return;
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}
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iter->ast = iter->stack.pop();
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assert(iter->ast != 0);
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iter->di += 1;
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iter->kind = iter->ast->kind;
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if (iter->ast->visit_id == iter->visit_id) {
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iter->kind = (Ast_Kind)((unsigned)iter->kind + AST_NODE_END);
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}
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}
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#define ast_create_copy(parent_scope, T, ast) (T *)ast__create_copy(parent_scope, sizeof(T), ast)
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Ast *ast__create_copy(Ast_Scope *parent_scope, size_t size, Ast *ast) {
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Ast *result = (Ast *)push_copy(pctx->perm, ast, size);
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result->parent_scope = parent_scope;
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result->di = ++pctx->unique_ids;
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return result;
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}
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// We are not copying module and file Ast's
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// We are not copying resolved data
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Ast *ast_copy(Ast *ast, Ast_Scope *parent_scope) {
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if (!ast) return 0;
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switch (ast->kind) {
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case AST_SCOPE: {
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Ast_Scope *src = (Ast_Scope *)ast;
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Ast_Scope *dst = ast_create_copy(parent_scope, Ast_Scope, src);
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free_all_nodes(&dst->decls);
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For(src->decls) {
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Ast_Decl *copy = (Ast_Decl *)ast_copy(it, dst);
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add(pctx->perm, &dst->decls, copy);
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}
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dst->stmts.init(pctx->perm, src->stmts.len);
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For(src->stmts) {
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Ast *copy = ast_copy(it, dst);
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dst->stmts.add(copy);
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}
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return dst;
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} break;
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case AST_MODULE: invalid_codepath; break;
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case AST_FILE: invalid_codepath; break;
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case AST_IDENT:
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case AST_VALUE: {
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Ast_Atom *src = (Ast_Atom *)ast;
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Ast_Atom *dst = ast_create_copy(parent_scope, Ast_Atom, ast);
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return dst;
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} break;
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case AST_INDEX: {
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Ast_Index *src = (Ast_Index *)ast;
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Ast_Index *dst = ast_create_copy(parent_scope, Ast_Index, ast);
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dst->expr = (Ast_Expr *)ast_copy(src->expr, parent_scope);
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dst->index = (Ast_Expr *)ast_copy(src->index, parent_scope);
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return dst;
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} break;
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case AST_UNARY: {
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Ast_Unary *src = (Ast_Unary *)ast;
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Ast_Unary *dst = ast_create_copy(parent_scope, Ast_Unary, ast);
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dst->expr = (Ast_Expr *)ast_copy(src->expr, parent_scope);
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return dst;
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} break;
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case AST_BINARY: {
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Ast_Binary *src = (Ast_Binary *)ast;
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Ast_Binary *dst = ast_create_copy(parent_scope, Ast_Binary, ast);
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dst->left = (Ast_Expr *)ast_copy(src->left, parent_scope);
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dst->right = (Ast_Expr *)ast_copy(src->right, parent_scope);
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return dst;
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} break;
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case AST_CALL_ITEM: {
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Ast_Call_Item *src = (Ast_Call_Item *)ast;
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Ast_Call_Item *dst = ast_create_copy(parent_scope, Ast_Call_Item, ast);
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dst->item = (Ast_Expr *)ast_copy(src->item, parent_scope);
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if (src->call_flags & CALL_INDEX) {
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dst->index = (Ast_Expr *)ast_copy(src->index, parent_scope);
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}
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else if (src->call_flags & CALL_NAME) {
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dst->name = (Ast_Atom *)ast_copy(src->name, parent_scope);
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}
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return dst;
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} break;
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case AST_COMPOUND:
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case AST_CALL: {
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Ast_Call *src = (Ast_Call *)ast;
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Ast_Call *dst = ast_create_copy(parent_scope, Ast_Call, ast);
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dst->name = (Ast_Expr *)ast_copy(src->name, parent_scope);
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dst->exprs.init(pctx->perm, src->exprs.len);
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For(dst->exprs) {
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auto copy = (Ast_Call_Item *)ast_copy(it, parent_scope);
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dst->exprs.add(copy);
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}
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return dst;
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} break;
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case AST_TYPE_OF:
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case AST_LENGTH_OF:
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case AST_ALIGN_OF:
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case AST_SIZE_OF:
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case AST_RUNTIME_ASSERT:
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case AST_CONSTANT_ASSERT: {
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Ast_Builtin *src = (Ast_Builtin *)ast;
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Ast_Builtin *dst = ast_create_copy(parent_scope, Ast_Builtin, ast);
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dst->expr = (Ast_Expr *)ast_copy(src->expr, parent_scope);
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return dst;
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} break;
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case AST_SWITCH: {
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Ast_Switch *src = (Ast_Switch *)ast;
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Ast_Switch *dst = ast_create_copy(parent_scope, Ast_Switch, ast);
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dst->value = (Ast_Expr *)ast_copy(src->value, parent_scope);
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dst->default_scope = (Ast_Scope *)ast_copy(src->default_scope, parent_scope);
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dst->cases.init(pctx->perm, src->cases.len);
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For(src->cases) {
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auto copy = (Ast_Switch_Case *)ast_copy(it, parent_scope);
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assert(copy->kind == AST_SWITCH_CASE);
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dst->cases.add(copy);
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}
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return dst;
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} break;
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case AST_SWITCH_CASE: {
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Ast_Switch_Case *src = (Ast_Switch_Case *)ast;
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Ast_Switch_Case *dst = ast_create_copy(parent_scope, Ast_Switch_Case, ast);
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dst->scope = (Ast_Scope *)ast_copy(src->scope, parent_scope);
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dst->labels.init(pctx->perm, src->labels.len);
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For(src->labels) {
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auto copy = (Ast_Expr *)ast_copy(it, parent_scope);
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dst->labels.add(copy);
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}
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return dst;
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} break;
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case AST_VAR_UNPACK: {
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Ast_Var_Unpack *src = (Ast_Var_Unpack *)ast;
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Ast_Var_Unpack *dst = ast_create_copy(parent_scope, Ast_Var_Unpack, ast);
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dst->expr = (Ast_Expr *)ast_copy(src->expr, parent_scope);
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dst->vars.init(pctx->perm, src->vars.len);
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For(src->vars) {
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auto copy = (Ast_Decl *)ast_copy(it, parent_scope);
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dst->vars.add(copy);
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}
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return dst;
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} break;
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case AST_PASS:
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case AST_BREAK: {
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Ast *src = (Ast *)ast;
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Ast *dst = ast_create_copy(parent_scope, Ast, ast);
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return dst;
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} break;
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case AST_NAMESPACE:
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case AST_STRUCT:
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case AST_UNION:
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case AST_ENUM:
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case AST_LAMBDA:
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case AST_TYPE: // @cleanup: what is this used for?
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case AST_CONST:
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case AST_VAR: {
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Ast_Decl *src = (Ast_Decl *)ast;
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Ast_Decl *dst = ast_create_copy(parent_scope, Ast_Decl, ast);
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// dst->overload_op_info = ast_create_copy(parent_scope, Ast_Operator_Info, src->overload_op_info);
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// omitting polymorphs
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// omitting polymorph parameters
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dst->scope = (Ast_Scope *)ast_copy(src->scope, parent_scope);
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dst->typespec = (Ast_Expr *)ast_copy(src->typespec, parent_scope);
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dst->expr = (Ast_Expr *)ast_copy(src->expr, parent_scope);
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return dst;
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} break;
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case AST_ARRAY: {
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Ast_Array *src = (Ast_Array *)ast;
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Ast_Array *dst = ast_create_copy(parent_scope, Ast_Array, ast);
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dst->expr = (Ast_Expr *)ast_copy(src->expr, parent_scope);
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return dst;
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} break;
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case AST_FOR: {
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Ast_For *src = (Ast_For *)ast;
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Ast_For *dst = ast_create_copy(parent_scope, Ast_For, ast);
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dst->scope = (Ast_Scope *)ast_copy(src->scope, parent_scope);
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dst->init = (Ast_Expr *)ast_copy(src->init, parent_scope);
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dst->cond = (Ast_Expr *)ast_copy(src->cond, parent_scope);
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dst->iter = (Ast_Expr *)ast_copy(src->iter, parent_scope);
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return dst;
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} break;
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case AST_IF: {
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Ast_If *src = (Ast_If *)ast;
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Ast_If *dst = ast_create_copy(parent_scope, Ast_If, ast);
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dst->ifs.init(pctx->perm, src->ifs.len);
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For(src->ifs) {
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auto copy = (Ast_If_Node *)ast_copy(it, parent_scope);
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assert(copy->kind == AST_IF_NODE);
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dst->ifs.add(copy);
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}
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return dst;
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} break;
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case AST_IF_NODE: {
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Ast_If_Node *src = (Ast_If_Node *)ast;
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Ast_If_Node *dst = ast_create_copy(parent_scope, Ast_If_Node, ast);
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dst->expr = (Ast_Expr *)ast_copy(src->expr, parent_scope);
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dst->init = (Ast_Binary *)ast_copy(src->init, parent_scope);
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dst->scope = (Ast_Scope *)ast_copy(src->scope, parent_scope);
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return dst;
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} break;
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case AST_RETURN: {
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Ast_Return *src = (Ast_Return *)ast;
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Ast_Return *dst = ast_create_copy(parent_scope, Ast_Return, ast);
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dst->expr.init(pctx->perm, src->expr.len);
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For(src->expr) {
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auto copy = (Ast_Expr *)ast_copy(it, parent_scope);
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dst->expr.add(copy);
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}
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return dst;
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} break;
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case AST_LAMBDA_EXPR: {
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Ast_Lambda *src = (Ast_Lambda *)ast;
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Ast_Lambda *dst = ast_create_copy(parent_scope, Ast_Lambda, ast);
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dst->args.init(pctx->perm, src->args.len);
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For(src->args) {
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auto copy = (Ast_Decl *)ast_copy(it, parent_scope);
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dst->args.add(copy);
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}
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dst->ret.init(pctx->perm, src->ret.len);
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For(src->ret) {
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auto copy = (Ast_Expr *)ast_copy(it, parent_scope);
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dst->ret.add(copy);
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}
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dst->scope = (Ast_Scope *)ast_copy(src->scope, parent_scope);
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return dst;
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} break;
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default: assert(!"Invalid default case");
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}
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invalid_return;
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} |