py: Check explicitly for memory allocation failure in parser.
Previously, a failed malloc/realloc would throw an exception, which was not caught. I think it's better to keep the parser free from NLR (exception throwing), hence this patch.
This commit is contained in:
Damien George
parent
ffa9bddfc4
commit
58ba4c3b4c
20
py/malloc.c
20
py/malloc.c
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@ -118,6 +118,26 @@ void *m_realloc(void *ptr, int old_num_bytes, int new_num_bytes) {
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return new_ptr;
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}
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void *m_realloc_maybe(void *ptr, int old_num_bytes, int new_num_bytes) {
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void *new_ptr = realloc(ptr, new_num_bytes);
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if (new_ptr == NULL) {
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return NULL;
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}
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#if MICROPY_MEM_STATS
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// At first thought, "Total bytes allocated" should only grow,
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// after all, it's *total*. But consider for example 2K block
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// shrunk to 1K and then grown to 2K again. It's still 2K
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// allocated total. If we process only positive increments,
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// we'll count 3K.
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int diff = new_num_bytes - old_num_bytes;
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total_bytes_allocated += diff;
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current_bytes_allocated += diff;
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UPDATE_PEAK();
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#endif
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DEBUG_printf("realloc %p, %d, %d : %p\n", ptr, old_num_bytes, new_num_bytes, new_ptr);
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return new_ptr;
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}
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void m_free(void *ptr, int num_bytes) {
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if (ptr != NULL) {
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free(ptr);
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@ -27,12 +27,14 @@ typedef unsigned int uint;
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#define m_new0(type, num) ((type*)(m_malloc0(sizeof(type) * (num))))
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#define m_new_obj(type) (m_new(type, 1))
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#define m_new_obj_var(obj_type, var_type, var_num) ((obj_type*)m_malloc(sizeof(obj_type) + sizeof(var_type) * (var_num)))
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#define m_new_obj_var_maybe(obj_type, var_type, var_num) ((obj_type*)m_malloc_maybe(sizeof(obj_type) + sizeof(var_type) * (var_num)))
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#if MICROPY_ENABLE_FINALISER
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#define m_new_obj_with_finaliser(type) ((type*)(m_malloc_with_finaliser(sizeof(type))))
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#else
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#define m_new_obj_with_finaliser(type) m_new_obj(type)
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#endif
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#define m_renew(type, ptr, old_num, new_num) ((type*)(m_realloc((ptr), sizeof(type) * (old_num), sizeof(type) * (new_num))))
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#define m_renew_maybe(type, ptr, old_num, new_num) ((type*)(m_realloc_maybe((ptr), sizeof(type) * (old_num), sizeof(type) * (new_num))))
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#define m_del(type, ptr, num) m_free(ptr, sizeof(type) * (num))
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#define m_del_obj(type, ptr) (m_del(type, ptr, 1))
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#define m_del_var(obj_type, var_type, var_num, ptr) (m_free(ptr, sizeof(obj_type) + sizeof(var_type) * (var_num)))
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@ -42,6 +44,7 @@ void *m_malloc_maybe(int num_bytes);
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void *m_malloc_with_finaliser(int num_bytes);
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void *m_malloc0(int num_bytes);
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void *m_realloc(void *ptr, int old_num_bytes, int new_num_bytes);
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void *m_realloc_maybe(void *ptr, int old_num_bytes, int new_num_bytes);
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void m_free(void *ptr, int num_bytes);
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void *m_malloc_fail(int num_bytes);
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@ -54,7 +54,7 @@ STATIC mp_obj_t mp_obj_exception_make_new(mp_obj_t type_in, uint n_args, uint n_
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nlr_raise(mp_obj_new_exception_msg_varg(&mp_type_TypeError, "%s does not take keyword arguments", mp_obj_get_type_str(type_in)));
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}
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mp_obj_exception_t *o = m_malloc_maybe(sizeof(mp_obj_exception_t) + n_args * sizeof(mp_obj_t));
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mp_obj_exception_t *o = m_new_obj_var_maybe(mp_obj_exception_t, mp_obj_t, n_args);
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if (o == NULL) {
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// Couldn't allocate heap memory; use local data instead.
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o = &mp_emergency_exception_obj;
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@ -205,7 +205,7 @@ mp_obj_t mp_obj_new_exception_msg_varg(const mp_obj_type_t *exc_type, const char
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assert(exc_type->make_new == mp_obj_exception_make_new);
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// make exception object
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mp_obj_exception_t *o = m_malloc_maybe(sizeof(mp_obj_exception_t) + 1 * sizeof(mp_obj_t));
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mp_obj_exception_t *o = m_new_obj_var_maybe(mp_obj_exception_t, mp_obj_t, 1);
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if (o == NULL) {
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// Couldn't allocate heap memory; use local data instead.
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// Unfortunately, we won't be able to format the string...
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66
py/parse.c
66
py/parse.c
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@ -86,6 +86,8 @@ typedef struct _rule_stack_t {
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} rule_stack_t;
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typedef struct _parser_t {
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bool had_memory_error;
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uint rule_stack_alloc;
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uint rule_stack_top;
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rule_stack_t *rule_stack;
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@ -97,9 +99,21 @@ typedef struct _parser_t {
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mp_lexer_t *lexer;
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} parser_t;
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STATIC inline void memory_error(parser_t *parser) {
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parser->had_memory_error = true;
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}
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STATIC void push_rule(parser_t *parser, int src_line, const rule_t *rule, int arg_i) {
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if (parser->had_memory_error) {
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return;
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}
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if (parser->rule_stack_top >= parser->rule_stack_alloc) {
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parser->rule_stack = m_renew(rule_stack_t, parser->rule_stack, parser->rule_stack_alloc, parser->rule_stack_alloc * 2);
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rule_stack_t *rs = m_renew_maybe(rule_stack_t, parser->rule_stack, parser->rule_stack_alloc, parser->rule_stack_alloc * 2);
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if (rs == NULL) {
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memory_error(parser);
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return;
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}
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parser->rule_stack = rs;
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parser->rule_stack_alloc *= 2;
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}
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rule_stack_t *rs = &parser->rule_stack[parser->rule_stack_top++];
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@ -116,6 +130,7 @@ STATIC void push_rule_from_arg(parser_t *parser, uint arg) {
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}
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STATIC void pop_rule(parser_t *parser, const rule_t **rule, uint *arg_i, uint *src_line) {
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assert(!parser->had_memory_error);
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parser->rule_stack_top -= 1;
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*rule = rules[parser->rule_stack[parser->rule_stack_top].rule_id];
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*arg_i = parser->rule_stack[parser->rule_stack_top].arg_i;
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@ -129,15 +144,6 @@ mp_parse_node_t mp_parse_node_new_leaf(machine_int_t kind, machine_int_t arg) {
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return (mp_parse_node_t)(kind | (arg << 5));
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}
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//int num_parse_nodes_allocated = 0;
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mp_parse_node_struct_t *parse_node_new_struct(int src_line, int rule_id, int num_args) {
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mp_parse_node_struct_t *pn = m_new_obj_var(mp_parse_node_struct_t, mp_parse_node_t, num_args);
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pn->source_line = src_line;
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pn->kind_num_nodes = (rule_id & 0xff) | (num_args << 8);
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//num_parse_nodes_allocated += 1;
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return pn;
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}
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uint mp_parse_node_free(mp_parse_node_t pn) {
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uint cnt = 0;
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if (MP_PARSE_NODE_IS_STRUCT(pn)) {
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@ -211,18 +217,32 @@ STATIC void result_stack_show(parser_t *parser) {
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*/
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STATIC mp_parse_node_t pop_result(parser_t *parser) {
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if (parser->had_memory_error) {
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return MP_PARSE_NODE_NULL;
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}
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assert(parser->result_stack_top > 0);
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return parser->result_stack[--parser->result_stack_top];
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}
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STATIC mp_parse_node_t peek_result(parser_t *parser, int pos) {
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if (parser->had_memory_error) {
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return MP_PARSE_NODE_NULL;
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}
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assert(parser->result_stack_top > pos);
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return parser->result_stack[parser->result_stack_top - 1 - pos];
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}
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STATIC void push_result_node(parser_t *parser, mp_parse_node_t pn) {
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if (parser->had_memory_error) {
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return;
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}
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if (parser->result_stack_top >= parser->result_stack_alloc) {
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parser->result_stack = m_renew(mp_parse_node_t, parser->result_stack, parser->result_stack_alloc, parser->result_stack_alloc * 2);
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mp_parse_node_t *pn = m_renew_maybe(mp_parse_node_t, parser->result_stack, parser->result_stack_alloc, parser->result_stack_alloc * 2);
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if (pn == NULL) {
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memory_error(parser);
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return;
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}
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parser->result_stack = pn;
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parser->result_stack_alloc *= 2;
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}
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parser->result_stack[parser->result_stack_top++] = pn;
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@ -283,7 +303,13 @@ STATIC void push_result_token(parser_t *parser, const mp_lexer_t *lex) {
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}
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STATIC void push_result_rule(parser_t *parser, int src_line, const rule_t *rule, int num_args) {
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mp_parse_node_struct_t *pn = parse_node_new_struct(src_line, rule->rule_id, num_args);
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mp_parse_node_struct_t *pn = m_new_obj_var_maybe(mp_parse_node_struct_t, mp_parse_node_t, num_args);
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if (pn == NULL) {
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memory_error(parser);
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return;
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}
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pn->source_line = src_line;
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pn->kind_num_nodes = (rule->rule_id & 0xff) | (num_args << 8);
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for (int i = num_args; i > 0; i--) {
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pn->nodes[i - 1] = pop_result(parser);
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}
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@ -296,6 +322,8 @@ mp_parse_node_t mp_parse(mp_lexer_t *lex, mp_parse_input_kind_t input_kind, mp_p
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parser_t *parser = m_new_obj(parser_t);
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parser->had_memory_error = false;
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parser->rule_stack_alloc = 64;
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parser->rule_stack_top = 0;
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parser->rule_stack = m_new(rule_stack_t, parser->rule_stack_alloc);
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@ -327,7 +355,7 @@ mp_parse_node_t mp_parse(mp_lexer_t *lex, mp_parse_input_kind_t input_kind, mp_p
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for (;;) {
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next_rule:
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if (parser->rule_stack_top == 0) {
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if (parser->rule_stack_top == 0 || parser->had_memory_error) {
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break;
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}
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@ -596,6 +624,16 @@ mp_parse_node_t mp_parse(mp_lexer_t *lex, mp_parse_input_kind_t input_kind, mp_p
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}
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}
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mp_parse_node_t result;
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// check if we had a memory error
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if (parser->had_memory_error) {
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*parse_error_kind_out = MP_PARSE_ERROR_MEMORY;
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result = MP_PARSE_NODE_NULL;
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goto finished;
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}
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// check we are at the end of the token stream
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if (!mp_lexer_is_kind(lex, MP_TOKEN_END)) {
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goto syntax_error;
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@ -609,7 +647,7 @@ mp_parse_node_t mp_parse(mp_lexer_t *lex, mp_parse_input_kind_t input_kind, mp_p
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// get the root parse node that we created
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assert(parser->result_stack_top == 1);
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mp_parse_node_t result = parser->result_stack[0];
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result = parser->result_stack[0];
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finished:
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// free the memory that we don't need anymore
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@ -67,6 +67,7 @@ typedef enum {
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} mp_parse_input_kind_t;
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typedef enum {
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MP_PARSE_ERROR_MEMORY,
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MP_PARSE_ERROR_UNEXPECTED_INDENT,
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MP_PARSE_ERROR_UNMATCHED_UNINDENT,
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MP_PARSE_ERROR_INVALID_SYNTAX,
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@ -11,6 +11,7 @@
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#include "obj.h"
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#include "parsehelper.h"
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#define STR_MEMORY "parser could not allocate enough memory"
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#define STR_UNEXPECTED_INDENT "unexpected indent"
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#define STR_UNMATCHED_UNINDENT "unindent does not match any outer indentation level"
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#define STR_INVALID_SYNTAX "invalid syntax"
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@ -18,6 +19,10 @@
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void mp_parse_show_exception(mp_lexer_t *lex, mp_parse_error_kind_t parse_error_kind) {
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printf(" File \"%s\", line %d, column %d\n", qstr_str(mp_lexer_source_name(lex)), mp_lexer_cur(lex)->src_line, mp_lexer_cur(lex)->src_column);
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switch (parse_error_kind) {
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case MP_PARSE_ERROR_MEMORY:
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printf("MemoryError: %s\n", STR_MEMORY);
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break;
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case MP_PARSE_ERROR_UNEXPECTED_INDENT:
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printf("IndentationError: %s\n", STR_UNEXPECTED_INDENT);
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break;
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@ -36,6 +41,9 @@ void mp_parse_show_exception(mp_lexer_t *lex, mp_parse_error_kind_t parse_error_
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mp_obj_t mp_parse_make_exception(mp_parse_error_kind_t parse_error_kind) {
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// TODO add source file and line number to exception?
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switch (parse_error_kind) {
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case MP_PARSE_ERROR_MEMORY:
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return mp_obj_new_exception_msg(&mp_type_MemoryError, STR_MEMORY);
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case MP_PARSE_ERROR_UNEXPECTED_INDENT:
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return mp_obj_new_exception_msg(&mp_type_IndentationError, STR_UNEXPECTED_INDENT);
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