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/*
* This file is part of the Micro Python project, http://micropython.org/
*
* The MIT License (MIT)
*
* Copyright (c) 2013-2015 Damien P. George
*
* Permission is hereby granted, free of charge, to any person obtaining a copy
* of this software and associated documentation files (the "Software"), to deal
* in the Software without restriction, including without limitation the rights
* to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
* copies of the Software, and to permit persons to whom the Software is
* furnished to do so, subject to the following conditions:
*
* The above copyright notice and this permission notice shall be included in
* all copies or substantial portions of the Software.
*
* THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
* IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
* FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
* AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
* LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
* OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN
* THE SOFTWARE.
*/
#include <stdbool.h>
11 years ago
#include <stdint.h>
#include <stdio.h>
#include <string.h>
#include <assert.h>
#include "py/scope.h"
#include "py/emit.h"
#include "py/compile.h"
#include "py/runtime.h"
11 years ago
#if MICROPY_ENABLE_COMPILER
11 years ago
// TODO need to mangle __attr names
typedef enum {
#define DEF_RULE(rule, comp, kind, ...) PN_##rule,
#include "py/grammar.h"
11 years ago
#undef DEF_RULE
PN_maximum_number_of,
PN_string, // special node for non-interned string
PN_bytes, // special node for non-interned bytes
PN_const_object, // special node for a constant, generic Python object
11 years ago
} pn_kind_t;
unix-cpy: Remove unix-cpy. It&#39;s no longer needed. unix-cpy was originally written to get semantic equivalent with CPython without writing functional tests. When writing the initial implementation of uPy it was a long way between lexer and functional tests, so the half-way test was to make sure that the bytecode was correct. The idea was that if the uPy bytecode matched CPython 1-1 then uPy would be proper Python if the bytecodes acted correctly. And having matching bytecode meant that it was less likely to miss some deep subtlety in the Python semantics that would require an architectural change later on. But that is all history and it no longer makes sense to retain the ability to output CPython bytecode, because: 1. It outputs CPython 3.3 compatible bytecode. CPython&#39;s bytecode changes from version to version, and seems to have changed quite a bit in 3.5. There&#39;s no point in changing the bytecode output to match CPython anymore. 2. uPy and CPy do different optimisations to the bytecode which makes it harder to match. 3. The bytecode tests are not run. They were never part of Travis and are not run locally anymore. 4. The EMIT_CPYTHON option needs a lot of extra source code which adds heaps of noise, especially in compile.c. 5. Now that there is an extensive test suite (which tests functionality) there is no need to match the bytecode. Some very subtle behaviour is tested with the test suite and passing these tests is a much better way to stay Python-language compliant, rather than trying to match CPy bytecode.
9 years ago
#define NEED_METHOD_TABLE MICROPY_EMIT_NATIVE
#if NEED_METHOD_TABLE
// we need a method table to do the lookup for the emitter functions
#define EMIT(fun) (comp->emit_method_table->fun(comp->emit))
#define EMIT_ARG(fun, ...) (comp->emit_method_table->fun(comp->emit, __VA_ARGS__))
#define EMIT_LOAD_FAST(qst, local_num) (comp->emit_method_table->load_id.fast(comp->emit, qst, local_num))
#define EMIT_LOAD_GLOBAL(qst) (comp->emit_method_table->load_id.global(comp->emit, qst))
11 years ago
#else
// if we only have the bytecode emitter enabled then we can do a direct call to the functions
#define EMIT(fun) (mp_emit_bc_##fun(comp->emit))
#define EMIT_ARG(fun, ...) (mp_emit_bc_##fun(comp->emit, __VA_ARGS__))
#define EMIT_LOAD_FAST(qst, local_num) (mp_emit_bc_load_fast(comp->emit, qst, local_num))
#define EMIT_LOAD_GLOBAL(qst) (mp_emit_bc_load_global(comp->emit, qst))
#endif
#define EMIT_INLINE_ASM(fun) (comp->emit_inline_asm_method_table->fun(comp->emit_inline_asm))
#define EMIT_INLINE_ASM_ARG(fun, ...) (comp->emit_inline_asm_method_table->fun(comp->emit_inline_asm, __VA_ARGS__))
// elements in this struct are ordered to make it compact
11 years ago
typedef struct _compiler_t {
qstr source_file;
uint8_t is_repl;
uint8_t pass; // holds enum type pass_kind_t
uint8_t func_arg_is_super; // used to compile special case of super() function call
uint8_t have_star;
// try to keep compiler clean from nlr
mp_obj_t compile_error; // set to an exception object if there's an error
size_t compile_error_line; // set to best guess of line of error
11 years ago
uint next_label;
uint16_t num_dict_params;
uint16_t num_default_params;
uint16_t break_label; // highest bit set indicates we are breaking out of a for loop
uint16_t continue_label;
uint16_t cur_except_level; // increased for SETUP_EXCEPT, SETUP_FINALLY; decreased for POP_BLOCK, POP_EXCEPT
uint16_t break_continue_except_level;
11 years ago
scope_t *scope_head;
scope_t *scope_cur;
emit_t *emit; // current emitter
#if NEED_METHOD_TABLE
const emit_method_table_t *emit_method_table; // current emit method table
#endif
#if MICROPY_EMIT_INLINE_THUMB
emit_inline_asm_t *emit_inline_asm; // current emitter for inline asm
const emit_inline_asm_method_table_t *emit_inline_asm_method_table; // current emit method table for inline asm
#endif
11 years ago
} compiler_t;
STATIC void compile_error_set_line(compiler_t *comp, mp_parse_node_t pn) {
// if the line of the error is unknown then try to update it from the pn
if (comp->compile_error_line == 0 && MP_PARSE_NODE_IS_STRUCT(pn)) {
comp->compile_error_line = ((mp_parse_node_struct_t*)pn)->source_line;
}
}
STATIC void compile_syntax_error(compiler_t *comp, mp_parse_node_t pn, const char *msg) {
// only register the error if there has been no other error
if (comp->compile_error == MP_OBJ_NULL) {
comp->compile_error = mp_obj_new_exception_msg(&mp_type_SyntaxError, msg);
compile_error_set_line(comp, pn);
}
}
STATIC void compile_trailer_paren_helper(compiler_t *comp, mp_parse_node_t pn_arglist, bool is_method_call, int n_positional_extra);
STATIC void compile_comprehension(compiler_t *comp, mp_parse_node_struct_t *pns, scope_kind_t kind);
STATIC void compile_node(compiler_t *comp, mp_parse_node_t pn);
11 years ago
STATIC uint comp_next_label(compiler_t *comp) {
return comp->next_label++;
}
STATIC void compile_increase_except_level(compiler_t *comp) {
comp->cur_except_level += 1;
if (comp->cur_except_level > comp->scope_cur->exc_stack_size) {
comp->scope_cur->exc_stack_size = comp->cur_except_level;
}
}
STATIC void compile_decrease_except_level(compiler_t *comp) {
assert(comp->cur_except_level > 0);
comp->cur_except_level -= 1;
}
STATIC scope_t *scope_new_and_link(compiler_t *comp, scope_kind_t kind, mp_parse_node_t pn, uint emit_options) {
scope_t *scope = scope_new(kind, pn, comp->source_file, emit_options);
11 years ago
scope->parent = comp->scope_cur;
scope->next = NULL;
if (comp->scope_head == NULL) {
comp->scope_head = scope;
} else {
scope_t *s = comp->scope_head;
while (s->next != NULL) {
s = s->next;
}
s->next = scope;
}
return scope;
}
typedef void (*apply_list_fun_t)(compiler_t *comp, mp_parse_node_t pn);
STATIC void apply_to_single_or_list(compiler_t *comp, mp_parse_node_t pn, pn_kind_t pn_list_kind, apply_list_fun_t f) {
if (MP_PARSE_NODE_IS_STRUCT_KIND(pn, pn_list_kind)) {
mp_parse_node_struct_t *pns = (mp_parse_node_struct_t*)pn;
int num_nodes = MP_PARSE_NODE_STRUCT_NUM_NODES(pns);
11 years ago
for (int i = 0; i < num_nodes; i++) {
f(comp, pns->nodes[i]);
}
} else if (!MP_PARSE_NODE_IS_NULL(pn)) {
11 years ago
f(comp, pn);
}
}
STATIC void compile_generic_all_nodes(compiler_t *comp, mp_parse_node_struct_t *pns) {
int num_nodes = MP_PARSE_NODE_STRUCT_NUM_NODES(pns);
11 years ago
for (int i = 0; i < num_nodes; i++) {
compile_node(comp, pns->nodes[i]);
if (comp->compile_error != MP_OBJ_NULL) {
// add line info for the error in case it didn't have a line number
compile_error_set_line(comp, pns->nodes[i]);
return;
}
11 years ago
}
}
STATIC void compile_load_id(compiler_t *comp, qstr qst) {
if (comp->pass == MP_PASS_SCOPE) {
mp_emit_common_get_id_for_load(comp->scope_cur, qst);
} else {
#if NEED_METHOD_TABLE
mp_emit_common_id_op(comp->emit, &comp->emit_method_table->load_id, comp->scope_cur, qst);
#else
mp_emit_common_id_op(comp->emit, &mp_emit_bc_method_table_load_id_ops, comp->scope_cur, qst);
#endif
}
}
STATIC void compile_store_id(compiler_t *comp, qstr qst) {
if (comp->pass == MP_PASS_SCOPE) {
mp_emit_common_get_id_for_modification(comp->scope_cur, qst);
} else {
#if NEED_METHOD_TABLE
mp_emit_common_id_op(comp->emit, &comp->emit_method_table->store_id, comp->scope_cur, qst);
#else
mp_emit_common_id_op(comp->emit, &mp_emit_bc_method_table_store_id_ops, comp->scope_cur, qst);
#endif
}
}
STATIC void compile_delete_id(compiler_t *comp, qstr qst) {
if (comp->pass == MP_PASS_SCOPE) {
mp_emit_common_get_id_for_modification(comp->scope_cur, qst);
} else {
#if NEED_METHOD_TABLE
mp_emit_common_id_op(comp->emit, &comp->emit_method_table->delete_id, comp->scope_cur, qst);
#else
mp_emit_common_id_op(comp->emit, &mp_emit_bc_method_table_delete_id_ops, comp->scope_cur, qst);
#endif
}
}
STATIC void c_tuple(compiler_t *comp, mp_parse_node_t pn, mp_parse_node_struct_t *pns_list) {
int total = 0;
if (!MP_PARSE_NODE_IS_NULL(pn)) {
compile_node(comp, pn);
total += 1;
}
if (pns_list != NULL) {
int n = MP_PARSE_NODE_STRUCT_NUM_NODES(pns_list);
for (int i = 0; i < n; i++) {
compile_node(comp, pns_list->nodes[i]);
}
total += n;
}
EMIT_ARG(build_tuple, total);
}
11 years ago
STATIC void compile_generic_tuple(compiler_t *comp, mp_parse_node_struct_t *pns) {
11 years ago
// a simple tuple expression
c_tuple(comp, MP_PARSE_NODE_NULL, pns);
11 years ago
}
STATIC bool node_is_const_false(mp_parse_node_t pn) {
return MP_PARSE_NODE_IS_TOKEN_KIND(pn, MP_TOKEN_KW_FALSE)
|| (MP_PARSE_NODE_IS_SMALL_INT(pn) && MP_PARSE_NODE_LEAF_SMALL_INT(pn) == 0);
11 years ago
}
STATIC bool node_is_const_true(mp_parse_node_t pn) {
return MP_PARSE_NODE_IS_TOKEN_KIND(pn, MP_TOKEN_KW_TRUE)
|| (MP_PARSE_NODE_IS_SMALL_INT(pn) && MP_PARSE_NODE_LEAF_SMALL_INT(pn) != 0);
11 years ago
}
STATIC void c_if_cond(compiler_t *comp, mp_parse_node_t pn, bool jump_if, int label) {
if (node_is_const_false(pn)) {
if (jump_if == false) {
EMIT_ARG(jump, label);
}
return;
} else if (node_is_const_true(pn)) {
if (jump_if == true) {
EMIT_ARG(jump, label);
}
return;
} else if (MP_PARSE_NODE_IS_STRUCT(pn)) {
mp_parse_node_struct_t *pns = (mp_parse_node_struct_t*)pn;
int n = MP_PARSE_NODE_STRUCT_NUM_NODES(pns);
if (MP_PARSE_NODE_STRUCT_KIND(pns) == PN_or_test) {
if (jump_if == false) {
and_or_logic1:;
uint label2 = comp_next_label(comp);
for (int i = 0; i < n - 1; i++) {
c_if_cond(comp, pns->nodes[i], !jump_if, label2);
}
c_if_cond(comp, pns->nodes[n - 1], jump_if, label);
EMIT_ARG(label_assign, label2);
} else {
and_or_logic2:
for (int i = 0; i < n; i++) {
c_if_cond(comp, pns->nodes[i], jump_if, label);
}
}
return;
} else if (MP_PARSE_NODE_STRUCT_KIND(pns) == PN_and_test) {
if (jump_if == false) {
goto and_or_logic2;
} else {
goto and_or_logic1;
}
} else if (MP_PARSE_NODE_STRUCT_KIND(pns) == PN_not_test_2) {
c_if_cond(comp, pns->nodes[0], !jump_if, label);
return;
} else if (MP_PARSE_NODE_STRUCT_KIND(pns) == PN_atom_paren) {
// cond is something in parenthesis
if (MP_PARSE_NODE_IS_NULL(pns->nodes[0])) {
// empty tuple, acts as false for the condition
if (jump_if == false) {
EMIT_ARG(jump, label);
}
} else {
assert(MP_PARSE_NODE_IS_STRUCT_KIND(pns->nodes[0], PN_testlist_comp));
// non-empty tuple, acts as true for the condition
if (jump_if == true) {
EMIT_ARG(jump, label);
}
}
return;
}
}
// nothing special, fall back to default compiling for node and jump
compile_node(comp, pn);
EMIT_ARG(pop_jump_if, jump_if, label);
11 years ago
}
typedef enum { ASSIGN_STORE, ASSIGN_AUG_LOAD, ASSIGN_AUG_STORE } assign_kind_t;
STATIC void c_assign(compiler_t *comp, mp_parse_node_t pn, assign_kind_t kind);
11 years ago
STATIC void c_assign_atom_expr(compiler_t *comp, mp_parse_node_struct_t *pns, assign_kind_t assign_kind) {
11 years ago
if (assign_kind != ASSIGN_AUG_STORE) {
compile_node(comp, pns->nodes[0]);
}
if (MP_PARSE_NODE_IS_STRUCT(pns->nodes[1])) {
mp_parse_node_struct_t *pns1 = (mp_parse_node_struct_t*)pns->nodes[1];
if (MP_PARSE_NODE_STRUCT_KIND(pns1) == PN_atom_expr_trailers) {
int n = MP_PARSE_NODE_STRUCT_NUM_NODES(pns1);
11 years ago
if (assign_kind != ASSIGN_AUG_STORE) {
for (int i = 0; i < n - 1; i++) {
compile_node(comp, pns1->nodes[i]);
}
}
assert(MP_PARSE_NODE_IS_STRUCT(pns1->nodes[n - 1]));
pns1 = (mp_parse_node_struct_t*)pns1->nodes[n - 1];
11 years ago
}
if (MP_PARSE_NODE_STRUCT_KIND(pns1) == PN_trailer_bracket) {
11 years ago
if (assign_kind == ASSIGN_AUG_STORE) {
EMIT(rot_three);
EMIT(store_subscr);
} else {
compile_node(comp, pns1->nodes[0]);
if (assign_kind == ASSIGN_AUG_LOAD) {
EMIT(dup_top_two);
EMIT(load_subscr);
11 years ago
} else {
EMIT(store_subscr);
}
}
} else if (MP_PARSE_NODE_STRUCT_KIND(pns1) == PN_trailer_period) {
assert(MP_PARSE_NODE_IS_ID(pns1->nodes[0]));
11 years ago
if (assign_kind == ASSIGN_AUG_LOAD) {
EMIT(dup_top);
EMIT_ARG(load_attr, MP_PARSE_NODE_LEAF_ARG(pns1->nodes[0]));
11 years ago
} else {
if (assign_kind == ASSIGN_AUG_STORE) {
EMIT(rot_two);
}
EMIT_ARG(store_attr, MP_PARSE_NODE_LEAF_ARG(pns1->nodes[0]));
11 years ago
}
} else {
goto cannot_assign;
11 years ago
}
} else {
goto cannot_assign;
11 years ago
}
return;
cannot_assign:
compile_syntax_error(comp, (mp_parse_node_t)pns, "can't assign to expression");
11 years ago
}
// we need to allow for a caller passing in 1 initial node (node_head) followed by an array of nodes (nodes_tail)
STATIC void c_assign_tuple(compiler_t *comp, mp_parse_node_t node_head, uint num_tail, mp_parse_node_t *nodes_tail) {
uint num_head = (node_head == MP_PARSE_NODE_NULL) ? 0 : 1;
// look for star expression
uint have_star_index = -1;
if (num_head != 0 && MP_PARSE_NODE_IS_STRUCT_KIND(node_head, PN_star_expr)) {
EMIT_ARG(unpack_ex, 0, num_tail);
have_star_index = 0;
}
for (uint i = 0; i < num_tail; i++) {
if (MP_PARSE_NODE_IS_STRUCT_KIND(nodes_tail[i], PN_star_expr)) {
if (have_star_index == (uint)-1) {
EMIT_ARG(unpack_ex, num_head + i, num_tail - i - 1);
have_star_index = num_head + i;
11 years ago
} else {
compile_syntax_error(comp, nodes_tail[i], "multiple *x in assignment");
11 years ago
return;
}
}
}
if (have_star_index == (uint)-1) {
EMIT_ARG(unpack_sequence, num_head + num_tail);
11 years ago
}
if (num_head != 0) {
if (0 == have_star_index) {
c_assign(comp, ((mp_parse_node_struct_t*)node_head)->nodes[0], ASSIGN_STORE);
11 years ago
} else {
c_assign(comp, node_head, ASSIGN_STORE);
}
}
for (uint i = 0; i < num_tail; i++) {
if (num_head + i == have_star_index) {
c_assign(comp, ((mp_parse_node_struct_t*)nodes_tail[i])->nodes[0], ASSIGN_STORE);
} else {
c_assign(comp, nodes_tail[i], ASSIGN_STORE);
11 years ago
}
}
}
// assigns top of stack to pn
STATIC void c_assign(compiler_t *comp, mp_parse_node_t pn, assign_kind_t assign_kind) {
assert(!MP_PARSE_NODE_IS_NULL(pn));
if (MP_PARSE_NODE_IS_LEAF(pn)) {
if (MP_PARSE_NODE_IS_ID(pn)) {
qstr arg = MP_PARSE_NODE_LEAF_ARG(pn);
11 years ago
switch (assign_kind) {
case ASSIGN_STORE:
case ASSIGN_AUG_STORE:
compile_store_id(comp, arg);
11 years ago
break;
case ASSIGN_AUG_LOAD:
default:
compile_load_id(comp, arg);
11 years ago
break;
}
} else {
compile_syntax_error(comp, pn, "can't assign to literal");
11 years ago
return;
}
} else {
// pn must be a struct
mp_parse_node_struct_t *pns = (mp_parse_node_struct_t*)pn;
switch (MP_PARSE_NODE_STRUCT_KIND(pns)) {
case PN_atom_expr_normal:
11 years ago
// lhs is an index or attribute
c_assign_atom_expr(comp, pns, assign_kind);
11 years ago
break;
case PN_testlist_star_expr:
case PN_exprlist:
// lhs is a tuple
if (assign_kind != ASSIGN_STORE) {
goto bad_aug;
}
c_assign_tuple(comp, MP_PARSE_NODE_NULL, MP_PARSE_NODE_STRUCT_NUM_NODES(pns), pns->nodes);
11 years ago
break;
case PN_atom_paren:
// lhs is something in parenthesis
if (MP_PARSE_NODE_IS_NULL(pns->nodes[0])) {
11 years ago
// empty tuple
goto cannot_assign;
} else {
assert(MP_PARSE_NODE_IS_STRUCT_KIND(pns->nodes[0], PN_testlist_comp));
if (assign_kind != ASSIGN_STORE) {
goto bad_aug;
}
pns = (mp_parse_node_struct_t*)pns->nodes[0];
11 years ago
goto testlist_comp;
}
break;
case PN_atom_bracket:
// lhs is something in brackets
if (assign_kind != ASSIGN_STORE) {
goto bad_aug;
}
if (MP_PARSE_NODE_IS_NULL(pns->nodes[0])) {
11 years ago
// empty list, assignment allowed
c_assign_tuple(comp, MP_PARSE_NODE_NULL, 0, NULL);
} else if (MP_PARSE_NODE_IS_STRUCT_KIND(pns->nodes[0], PN_testlist_comp)) {
pns = (mp_parse_node_struct_t*)pns->nodes[0];
11 years ago
goto testlist_comp;
} else {
// brackets around 1 item
c_assign_tuple(comp, pns->nodes[0], 0, NULL);
11 years ago
}
break;
default:
goto cannot_assign;
11 years ago
}
return;
testlist_comp:
// lhs is a sequence
if (MP_PARSE_NODE_IS_STRUCT(pns->nodes[1])) {
mp_parse_node_struct_t *pns2 = (mp_parse_node_struct_t*)pns->nodes[1];
if (MP_PARSE_NODE_STRUCT_KIND(pns2) == PN_testlist_comp_3b) {
11 years ago
// sequence of one item, with trailing comma
assert(MP_PARSE_NODE_IS_NULL(pns2->nodes[0]));
c_assign_tuple(comp, pns->nodes[0], 0, NULL);
} else if (MP_PARSE_NODE_STRUCT_KIND(pns2) == PN_testlist_comp_3c) {
11 years ago
// sequence of many items
uint n = MP_PARSE_NODE_STRUCT_NUM_NODES(pns2);
c_assign_tuple(comp, pns->nodes[0], n, pns2->nodes);
} else if (MP_PARSE_NODE_STRUCT_KIND(pns) == PN_comp_for) {
// TODO can we ever get here? can it be compiled?
goto cannot_assign;
11 years ago
} else {
// sequence with 2 items
goto sequence_with_2_items;
}
} else {
// sequence with 2 items
sequence_with_2_items:
c_assign_tuple(comp, MP_PARSE_NODE_NULL, 2, pns->nodes);
11 years ago
}
return;
}
return;
cannot_assign:
compile_syntax_error(comp, pn, "can't assign to expression");
return;
11 years ago
bad_aug:
compile_syntax_error(comp, pn, "illegal expression for augmented assignment");
11 years ago
}
unix-cpy: Remove unix-cpy. It&#39;s no longer needed. unix-cpy was originally written to get semantic equivalent with CPython without writing functional tests. When writing the initial implementation of uPy it was a long way between lexer and functional tests, so the half-way test was to make sure that the bytecode was correct. The idea was that if the uPy bytecode matched CPython 1-1 then uPy would be proper Python if the bytecodes acted correctly. And having matching bytecode meant that it was less likely to miss some deep subtlety in the Python semantics that would require an architectural change later on. But that is all history and it no longer makes sense to retain the ability to output CPython bytecode, because: 1. It outputs CPython 3.3 compatible bytecode. CPython&#39;s bytecode changes from version to version, and seems to have changed quite a bit in 3.5. There&#39;s no point in changing the bytecode output to match CPython anymore. 2. uPy and CPy do different optimisations to the bytecode which makes it harder to match. 3. The bytecode tests are not run. They were never part of Travis and are not run locally anymore. 4. The EMIT_CPYTHON option needs a lot of extra source code which adds heaps of noise, especially in compile.c. 5. Now that there is an extensive test suite (which tests functionality) there is no need to match the bytecode. Some very subtle behaviour is tested with the test suite and passing these tests is a much better way to stay Python-language compliant, rather than trying to match CPy bytecode.
9 years ago
// stuff for lambda and comprehensions and generators:
// if n_pos_defaults > 0 then there is a tuple on the stack with the positional defaults
// if n_kw_defaults > 0 then there is a dictionary on the stack with the keyword defaults
// if both exist, the tuple is above the dictionary (ie the first pop gets the tuple)
STATIC void close_over_variables_etc(compiler_t *comp, scope_t *this_scope, int n_pos_defaults, int n_kw_defaults) {
assert(n_pos_defaults >= 0);
assert(n_kw_defaults >= 0);
// set flags
if (n_kw_defaults > 0) {
this_scope->scope_flags |= MP_SCOPE_FLAG_DEFKWARGS;
}
this_scope->num_def_pos_args = n_pos_defaults;
11 years ago
// make closed over variables, if any
// ensure they are closed over in the order defined in the outer scope (mainly to agree with CPython)
11 years ago
int nfree = 0;
if (comp->scope_cur->kind != SCOPE_MODULE) {
for (int i = 0; i < comp->scope_cur->id_info_len; i++) {
id_info_t *id = &comp->scope_cur->id_info[i];
if (id->kind == ID_INFO_KIND_CELL || id->kind == ID_INFO_KIND_FREE) {
for (int j = 0; j < this_scope->id_info_len; j++) {
id_info_t *id2 = &this_scope->id_info[j];
if (id2->kind == ID_INFO_KIND_FREE && id->qst == id2->qst) {
// in Micro Python we load closures using LOAD_FAST
EMIT_LOAD_FAST(id->qst, id->local_num);
nfree += 1;
}
}
11 years ago
}
}
}
// make the function/closure
if (nfree == 0) {
EMIT_ARG(make_function, this_scope, n_pos_defaults, n_kw_defaults);
11 years ago
} else {
EMIT_ARG(make_closure, this_scope, nfree, n_pos_defaults, n_kw_defaults);
11 years ago
}
}
STATIC void compile_funcdef_lambdef_param(compiler_t *comp, mp_parse_node_t pn) {
if (MP_PARSE_NODE_IS_STRUCT_KIND(pn, PN_typedargslist_star)
|| MP_PARSE_NODE_IS_STRUCT_KIND(pn, PN_varargslist_star)) {
comp->have_star = true;
/* don't need to distinguish bare from named star
mp_parse_node_struct_t *pns = (mp_parse_node_struct_t*)pn;
if (MP_PARSE_NODE_IS_NULL(pns->nodes[0])) {
// bare star
} else {
// named star
}
*/
} else if (MP_PARSE_NODE_IS_STRUCT_KIND(pn, PN_typedargslist_dbl_star)
|| MP_PARSE_NODE_IS_STRUCT_KIND(pn, PN_varargslist_dbl_star)) {
// named double star
// TODO do we need to do anything with this?
} else {
mp_parse_node_t pn_id;
mp_parse_node_t pn_colon;
mp_parse_node_t pn_equal;
if (MP_PARSE_NODE_IS_ID(pn)) {
// this parameter is just an id
pn_id = pn;
pn_colon = MP_PARSE_NODE_NULL;
pn_equal = MP_PARSE_NODE_NULL;
} else if (MP_PARSE_NODE_IS_STRUCT_KIND(pn, PN_typedargslist_name)) {
// this parameter has a colon and/or equal specifier
mp_parse_node_struct_t *pns = (mp_parse_node_struct_t*)pn;
pn_id = pns->nodes[0];
pn_colon = pns->nodes[1];
pn_equal = pns->nodes[2];
} else {
assert(MP_PARSE_NODE_IS_STRUCT_KIND(pn, PN_varargslist_name)); // should be
// this parameter has an equal specifier
mp_parse_node_struct_t *pns = (mp_parse_node_struct_t*)pn;
pn_id = pns->nodes[0];
pn_equal = pns->nodes[1];
}
if (MP_PARSE_NODE_IS_NULL(pn_equal)) {
// this parameter does not have a default value
// check for non-default parameters given after default parameters (allowed by parser, but not syntactically valid)
if (!comp->have_star && comp->num_default_params != 0) {
compile_syntax_error(comp, pn, "non-default argument follows default argument");
return;
}
} else {
11 years ago
// this parameter has a default value
// in CPython, None (and True, False?) as default parameters are loaded with LOAD_NAME; don't understandy why
if (comp->have_star) {
comp->num_dict_params += 1;
// in Micro Python we put the default dict parameters into a dictionary using the bytecode
if (comp->num_dict_params == 1) {
// in Micro Python we put the default positional parameters into a tuple using the bytecode
// we need to do this here before we start building the map for the default keywords
if (comp->num_default_params > 0) {
EMIT_ARG(build_tuple, comp->num_default_params);
} else {
EMIT(load_null); // sentinel indicating empty default positional args
}
// first default dict param, so make the map
EMIT_ARG(build_map, 0);
}
// compile value then key, then store it to the dict
compile_node(comp, pn_equal);
EMIT_ARG(load_const_str, MP_PARSE_NODE_LEAF_ARG(pn_id));
EMIT(store_map);
11 years ago
} else {
comp->num_default_params += 1;
compile_node(comp, pn_equal);
11 years ago
}
}
// TODO pn_colon not implemented
(void)pn_colon;
11 years ago
}
}
STATIC void compile_funcdef_lambdef(compiler_t *comp, scope_t *scope, mp_parse_node_t pn_params, pn_kind_t pn_list_kind) {
// When we call compile_funcdef_lambdef_param below it can compile an arbitrary
// expression for default arguments, which may contain a lambda. The lambda will
// call here in a nested way, so we must save and restore the relevant state.
bool orig_have_star = comp->have_star;
uint16_t orig_num_dict_params = comp->num_dict_params;
uint16_t orig_num_default_params = comp->num_default_params;
11 years ago
// compile default parameters
comp->have_star = false;
comp->num_dict_params = 0;
comp->num_default_params = 0;
apply_to_single_or_list(comp, pn_params, pn_list_kind, compile_funcdef_lambdef_param);
if (comp->compile_error != MP_OBJ_NULL) {
return;
}
// in Micro Python we put the default positional parameters into a tuple using the bytecode
// the default keywords args may have already made the tuple; if not, do it now
if (comp->num_default_params > 0 && comp->num_dict_params == 0) {
EMIT_ARG(build_tuple, comp->num_default_params);
EMIT(load_null); // sentinel indicating empty default keyword args
}
// make the function
close_over_variables_etc(comp, scope, comp->num_default_params, comp->num_dict_params);
// restore state
comp->have_star = orig_have_star;
comp->num_dict_params = orig_num_dict_params;
comp->num_default_params = orig_num_default_params;
}
// leaves function object on stack
// returns function name
STATIC qstr compile_funcdef_helper(compiler_t *comp, mp_parse_node_struct_t *pns, uint emit_options) {
if (comp->pass == MP_PASS_SCOPE) {
// create a new scope for this function
scope_t *s = scope_new_and_link(comp, SCOPE_FUNCTION, (mp_parse_node_t)pns, emit_options);
// store the function scope so the compiling function can use it at each pass
pns->nodes[4] = (mp_parse_node_t)s;
}
11 years ago
// get the scope for this function
scope_t *fscope = (scope_t*)pns->nodes[4];
// compile the function definition
compile_funcdef_lambdef(comp, fscope, pns->nodes[1], PN_typedargslist);
11 years ago
// return its name (the 'f' in "def f(...):")
return fscope->simple_name;
}
// leaves class object on stack
// returns class name
STATIC qstr compile_classdef_helper(compiler_t *comp, mp_parse_node_struct_t *pns, uint emit_options) {
if (comp->pass == MP_PASS_SCOPE) {
11 years ago
// create a new scope for this class
scope_t *s = scope_new_and_link(comp, SCOPE_CLASS, (mp_parse_node_t)pns, emit_options);
11 years ago
// store the class scope so the compiling function can use it at each pass
pns->nodes[3] = (mp_parse_node_t)s;
11 years ago
}
EMIT(load_build_class);
// scope for this class
scope_t *cscope = (scope_t*)pns->nodes[3];
// compile the class
close_over_variables_etc(comp, cscope, 0, 0);
// get its name
EMIT_ARG(load_const_str, cscope->simple_name);
11 years ago
// nodes[1] has parent classes, if any
// empty parenthesis (eg class C():) gets here as an empty PN_classdef_2 and needs special handling
mp_parse_node_t parents = pns->nodes[1];
if (MP_PARSE_NODE_IS_STRUCT_KIND(parents, PN_classdef_2)) {
parents = MP_PARSE_NODE_NULL;
}
comp->func_arg_is_super = false;
compile_trailer_paren_helper(comp, parents, false, 2);
11 years ago
// return its name (the 'C' in class C(...):")
return cscope->simple_name;
}
// returns true if it was a built-in decorator (even if the built-in had an error)
STATIC bool compile_built_in_decorator(compiler_t *comp, int name_len, mp_parse_node_t *name_nodes, uint *emit_options) {
if (MP_PARSE_NODE_LEAF_ARG(name_nodes[0]) != MP_QSTR_micropython) {
return false;
}
if (name_len != 2) {
compile_syntax_error(comp, name_nodes[0], "invalid micropython decorator");
return true;
}
qstr attr = MP_PARSE_NODE_LEAF_ARG(name_nodes[1]);
if (attr == MP_QSTR_bytecode) {
*emit_options = MP_EMIT_OPT_BYTECODE;
#if MICROPY_EMIT_NATIVE
} else if (attr == MP_QSTR_native) {
*emit_options = MP_EMIT_OPT_NATIVE_PYTHON;
} else if (attr == MP_QSTR_viper) {
*emit_options = MP_EMIT_OPT_VIPER;
#endif
#if MICROPY_EMIT_INLINE_THUMB
} else if (attr == MP_QSTR_asm_thumb) {
*emit_options = MP_EMIT_OPT_ASM_THUMB;
#endif
} else {
compile_syntax_error(comp, name_nodes[1], "invalid micropython decorator");
}
return true;
}
STATIC void compile_decorated(compiler_t *comp, mp_parse_node_struct_t *pns) {
11 years ago
// get the list of decorators
mp_parse_node_t *nodes;
int n = mp_parse_node_extract_list(&pns->nodes[0], PN_decorators, &nodes);
11 years ago
// inherit emit options for this function/class definition
uint emit_options = comp->scope_cur->emit_options;
// compile each decorator
int num_built_in_decorators = 0;
11 years ago
for (int i = 0; i < n; i++) {
assert(MP_PARSE_NODE_IS_STRUCT_KIND(nodes[i], PN_decorator)); // should be
mp_parse_node_struct_t *pns_decorator = (mp_parse_node_struct_t*)nodes[i];
// nodes[0] contains the decorator function, which is a dotted name
mp_parse_node_t *name_nodes;
int name_len = mp_parse_node_extract_list(&pns_decorator->nodes[0], PN_dotted_name, &name_nodes);
// check for built-in decorators
if (compile_built_in_decorator(comp, name_len, name_nodes, &emit_options)) {
// this was a built-in
num_built_in_decorators += 1;
} else {
// not a built-in, compile normally
// compile the decorator function
compile_node(comp, name_nodes[0]);
for (int j = 1; j < name_len; j++) {
assert(MP_PARSE_NODE_IS_ID(name_nodes[j])); // should be
EMIT_ARG(load_attr, MP_PARSE_NODE_LEAF_ARG(name_nodes[j]));
}
// nodes[1] contains arguments to the decorator function, if any
if (!MP_PARSE_NODE_IS_NULL(pns_decorator->nodes[1])) {
// call the decorator function with the arguments in nodes[1]
comp->func_arg_is_super = false;
compile_node(comp, pns_decorator->nodes[1]);
}
11 years ago
}
}
// compile the body (funcdef, async funcdef or classdef) and get its name
mp_parse_node_struct_t *pns_body = (mp_parse_node_struct_t*)pns->nodes[1];
11 years ago
qstr body_name = 0;
if (MP_PARSE_NODE_STRUCT_KIND(pns_body) == PN_funcdef) {
body_name = compile_funcdef_helper(comp, pns_body, emit_options);
#if MICROPY_PY_ASYNC_AWAIT
} else if (MP_PARSE_NODE_STRUCT_KIND(pns_body) == PN_async_funcdef) {
assert(MP_PARSE_NODE_IS_STRUCT(pns_body->nodes[0]));
mp_parse_node_struct_t *pns0 = (mp_parse_node_struct_t*)pns_body->nodes[0];
body_name = compile_funcdef_helper(comp, pns0, emit_options);
scope_t *fscope = (scope_t*)pns0->nodes[4];
fscope->scope_flags |= MP_SCOPE_FLAG_GENERATOR;
#endif
11 years ago
} else {
assert(MP_PARSE_NODE_STRUCT_KIND(pns_body) == PN_classdef); // should be
body_name = compile_classdef_helper(comp, pns_body, emit_options);
11 years ago
}
// call each decorator
for (int i = 0; i < n - num_built_in_decorators; i++) {
EMIT_ARG(call_function, 1, 0, 0);
11 years ago
}
// store func/class object into name
compile_store_id(comp, body_name);
11 years ago
}
STATIC void compile_funcdef(compiler_t *comp, mp_parse_node_struct_t *pns) {
qstr fname = compile_funcdef_helper(comp, pns, comp->scope_cur->emit_options);
11 years ago
// store function object into function name
compile_store_id(comp, fname);
11 years ago
}
STATIC void c_del_stmt(compiler_t *comp, mp_parse_node_t pn) {
if (MP_PARSE_NODE_IS_ID(pn)) {
compile_delete_id(comp, MP_PARSE_NODE_LEAF_ARG(pn));
} else if (MP_PARSE_NODE_IS_STRUCT_KIND(pn, PN_atom_expr_normal)) {
mp_parse_node_struct_t *pns = (mp_parse_node_struct_t*)pn;
11 years ago
compile_node(comp, pns->nodes[0]); // base of the atom_expr_normal node
11 years ago
if (MP_PARSE_NODE_IS_STRUCT(pns->nodes[1])) {
mp_parse_node_struct_t *pns1 = (mp_parse_node_struct_t*)pns->nodes[1];
if (MP_PARSE_NODE_STRUCT_KIND(pns1) == PN_atom_expr_trailers) {
int n = MP_PARSE_NODE_STRUCT_NUM_NODES(pns1);
11 years ago
for (int i = 0; i < n - 1; i++) {
compile_node(comp, pns1->nodes[i]);
}
assert(MP_PARSE_NODE_IS_STRUCT(pns1->nodes[n - 1]));
pns1 = (mp_parse_node_struct_t*)pns1->nodes[n - 1];
11 years ago
}
if (MP_PARSE_NODE_STRUCT_KIND(pns1) == PN_trailer_bracket) {
11 years ago
compile_node(comp, pns1->nodes[0]);
EMIT(delete_subscr);
} else if (MP_PARSE_NODE_STRUCT_KIND(pns1) == PN_trailer_period) {
assert(MP_PARSE_NODE_IS_ID(pns1->nodes[0]));
EMIT_ARG(delete_attr, MP_PARSE_NODE_LEAF_ARG(pns1->nodes[0]));
11 years ago
} else {
goto cannot_delete;
11 years ago
}
} else {
goto cannot_delete;
11 years ago
}
} else if (MP_PARSE_NODE_IS_STRUCT_KIND(pn, PN_atom_paren)) {
pn = ((mp_parse_node_struct_t*)pn)->nodes[0];
if (MP_PARSE_NODE_IS_NULL(pn)) {
goto cannot_delete;
} else {
assert(MP_PARSE_NODE_IS_STRUCT_KIND(pn, PN_testlist_comp));
mp_parse_node_struct_t *pns = (mp_parse_node_struct_t*)pn;
11 years ago
// TODO perhaps factorise testlist_comp code with other uses of PN_testlist_comp
if (MP_PARSE_NODE_IS_STRUCT(pns->nodes[1])) {
mp_parse_node_struct_t *pns1 = (mp_parse_node_struct_t*)pns->nodes[1];
if (MP_PARSE_NODE_STRUCT_KIND(pns1) == PN_testlist_comp_3b) {
11 years ago
// sequence of one item, with trailing comma
assert(MP_PARSE_NODE_IS_NULL(pns1->nodes[0]));
11 years ago
c_del_stmt(comp, pns->nodes[0]);
} else if (MP_PARSE_NODE_STRUCT_KIND(pns1) == PN_testlist_comp_3c) {
11 years ago
// sequence of many items
int n = MP_PARSE_NODE_STRUCT_NUM_NODES(pns1);
11 years ago
c_del_stmt(comp, pns->nodes[0]);
for (int i = 0; i < n; i++) {
c_del_stmt(comp, pns1->nodes[i]);
}
} else if (MP_PARSE_NODE_STRUCT_KIND(pns) == PN_comp_for) {
// TODO not implemented; can't del comprehension? can we get here?
goto cannot_delete;
11 years ago
} else {
// sequence with 2 items
goto sequence_with_2_items;
}
} else {
// sequence with 2 items
sequence_with_2_items:
c_del_stmt(comp, pns->nodes[0]);
c_del_stmt(comp, pns->nodes[1]);
}
}
} else {
// some arbitrary statment that we can't delete (eg del 1)
goto cannot_delete;
11 years ago
}
return;
cannot_delete:
compile_syntax_error(comp, (mp_parse_node_t)pn, "can't delete expression");
11 years ago
}
STATIC void compile_del_stmt(compiler_t *comp, mp_parse_node_struct_t *pns) {
11 years ago
apply_to_single_or_list(comp, pns->nodes[0], PN_exprlist, c_del_stmt);
}
STATIC void compile_break_stmt(compiler_t *comp, mp_parse_node_struct_t *pns) {
11 years ago
if (comp->break_label == 0) {
compile_syntax_error(comp, (mp_parse_node_t)pns, "'break' outside loop");
11 years ago
}
assert(comp->cur_except_level >= comp->break_continue_except_level);
EMIT_ARG(break_loop, comp->break_label, comp->cur_except_level - comp->break_continue_except_level);
11 years ago
}
STATIC void compile_continue_stmt(compiler_t *comp, mp_parse_node_struct_t *pns) {
11 years ago
if (comp->continue_label == 0) {
compile_syntax_error(comp, (mp_parse_node_t)pns, "'continue' outside loop");
11 years ago
}
assert(comp->cur_except_level >= comp->break_continue_except_level);
EMIT_ARG(continue_loop, comp->continue_label, comp->cur_except_level - comp->break_continue_except_level);
11 years ago
}
STATIC void compile_return_stmt(compiler_t *comp, mp_parse_node_struct_t *pns) {
11 years ago
if (comp->scope_cur->kind != SCOPE_FUNCTION) {
compile_syntax_error(comp, (mp_parse_node_t)pns, "'return' outside function");
11 years ago
return;
}
if (MP_PARSE_NODE_IS_NULL(pns->nodes[0])) {
11 years ago
// no argument to 'return', so return None
EMIT_ARG(load_const_tok, MP_TOKEN_KW_NONE);
} else if (MP_PARSE_NODE_IS_STRUCT_KIND(pns->nodes[0], PN_test_if_expr)) {
11 years ago
// special case when returning an if-expression; to match CPython optimisation
mp_parse_node_struct_t *pns_test_if_expr = (mp_parse_node_struct_t*)pns->nodes[0];
mp_parse_node_struct_t *pns_test_if_else = (mp_parse_node_struct_t*)pns_test_if_expr->nodes[1];
11 years ago
uint l_fail = comp_next_label(comp);
11 years ago
c_if_cond(comp, pns_test_if_else->nodes[0], false, l_fail); // condition
compile_node(comp, pns_test_if_expr->nodes[0]); // success value
EMIT(return_value);
EMIT_ARG(label_assign, l_fail);
11 years ago
compile_node(comp, pns_test_if_else->nodes[1]); // failure value
} else {
compile_node(comp, pns->nodes[0]);
}
EMIT(return_value);
}
STATIC void compile_yield_stmt(compiler_t *comp, mp_parse_node_struct_t *pns) {
11 years ago
compile_node(comp, pns->nodes[0]);
EMIT(pop_top);
}
STATIC void compile_raise_stmt(compiler_t *comp, mp_parse_node_struct_t *pns) {
if (MP_PARSE_NODE_IS_NULL(pns->nodes[0])) {
11 years ago
// raise
EMIT_ARG(raise_varargs, 0);
} else if (MP_PARSE_NODE_IS_STRUCT_KIND(pns->nodes[0], PN_raise_stmt_arg)) {
11 years ago
// raise x from y
pns = (mp_parse_node_struct_t*)pns->nodes[0];
11 years ago
compile_node(comp, pns->nodes[0]);
compile_node(comp, pns->nodes[1]);
EMIT_ARG(raise_varargs, 2);
11 years ago
} else {
// raise x
compile_node(comp, pns->nodes[0]);
EMIT_ARG(raise_varargs, 1);
11 years ago
}
}
// q_base holds the base of the name
// eg a -> q_base=a
// a.b.c -> q_base=a
STATIC void do_import_name(compiler_t *comp, mp_parse_node_t pn, qstr *q_base) {
11 years ago
bool is_as = false;
if (MP_PARSE_NODE_IS_STRUCT_KIND(pn, PN_dotted_as_name)) {
mp_parse_node_struct_t *pns = (mp_parse_node_struct_t*)pn;
11 years ago
// a name of the form x as y; unwrap it
*q_base = MP_PARSE_NODE_LEAF_ARG(pns->nodes[1]);
11 years ago
pn = pns->nodes[0];
is_as = true;
}
if (MP_PARSE_NODE_IS_NULL(pn)) {
// empty name (eg, from . import x)
*q_base = MP_QSTR_;
EMIT_ARG(import_name, MP_QSTR_); // import the empty string
} else if (MP_PARSE_NODE_IS_ID(pn)) {
11 years ago
// just a simple name
qstr q_full = MP_PARSE_NODE_LEAF_ARG(pn);
11 years ago
if (!is_as) {
*q_base = q_full;
11 years ago
}
EMIT_ARG(import_name, q_full);
} else {
assert(MP_PARSE_NODE_IS_STRUCT_KIND(pn, PN_dotted_name)); // should be
mp_parse_node_struct_t *pns = (mp_parse_node_struct_t*)pn;
{
11 years ago
// a name of the form a.b.c
if (!is_as) {
*q_base = MP_PARSE_NODE_LEAF_ARG(pns->nodes[0]);
11 years ago
}
int n = MP_PARSE_NODE_STRUCT_NUM_NODES(pns);
11 years ago
int len = n - 1;
for (int i = 0; i < n; i++) {
len += qstr_len(MP_PARSE_NODE_LEAF_ARG(pns->nodes[i]));
11 years ago
}
byte *q_ptr;
byte *str_dest = qstr_build_start(len, &q_ptr);
11 years ago
for (int i = 0; i < n; i++) {
if (i > 0) {
*str_dest++ = '.';
11 years ago
}
size_t str_src_len;
const byte *str_src = qstr_data(MP_PARSE_NODE_LEAF_ARG(pns->nodes[i]), &str_src_len);
memcpy(str_dest, str_src, str_src_len);
str_dest += str_src_len;
11 years ago
}
qstr q_full = qstr_build_end(q_ptr);
EMIT_ARG(import_name, q_full);
11 years ago
if (is_as) {
for (int i = 1; i < n; i++) {
EMIT_ARG(load_attr, MP_PARSE_NODE_LEAF_ARG(pns->nodes[i]));
11 years ago
}
}
}
}
}
STATIC void compile_dotted_as_name(compiler_t *comp, mp_parse_node_t pn) {
EMIT_ARG(load_const_small_int, 0); // level 0 import
EMIT_ARG(load_const_tok, MP_TOKEN_KW_NONE); // not importing from anything
qstr q_base;
do_import_name(comp, pn, &q_base);
compile_store_id(comp, q_base);
11 years ago
}
STATIC void compile_import_name(compiler_t *comp, mp_parse_node_struct_t *pns) {
11 years ago
apply_to_single_or_list(comp, pns->nodes[0], PN_dotted_as_names, compile_dotted_as_name);
}
STATIC void compile_import_from(compiler_t *comp, mp_parse_node_struct_t *pns) {
mp_parse_node_t pn_import_source = pns->nodes[0];
// extract the preceeding .'s (if any) for a relative import, to compute the import level
uint import_level = 0;
do {
mp_parse_node_t pn_rel;
if (MP_PARSE_NODE_IS_TOKEN(pn_import_source) || MP_PARSE_NODE_IS_STRUCT_KIND(pn_import_source, PN_one_or_more_period_or_ellipsis)) {
// This covers relative imports with dots only like "from .. import"
pn_rel = pn_import_source;
pn_import_source = MP_PARSE_NODE_NULL;
} else if (MP_PARSE_NODE_IS_STRUCT_KIND(pn_import_source, PN_import_from_2b)) {
// This covers relative imports starting with dot(s) like "from .foo import"
mp_parse_node_struct_t *pns_2b = (mp_parse_node_struct_t*)pn_import_source;
pn_rel = pns_2b->nodes[0];
pn_import_source = pns_2b->nodes[1];
assert(!MP_PARSE_NODE_IS_NULL(pn_import_source)); // should not be
} else {
// Not a relative import
break;
}
// get the list of . and/or ...'s
mp_parse_node_t *nodes;
int n = mp_parse_node_extract_list(&pn_rel, PN_one_or_more_period_or_ellipsis, &nodes);
// count the total number of .'s
for (int i = 0; i < n; i++) {
if (MP_PARSE_NODE_IS_TOKEN_KIND(nodes[i], MP_TOKEN_DEL_PERIOD)) {
import_level++;
} else {
// should be an MP_TOKEN_ELLIPSIS
import_level += 3;
}
}
} while (0);
if (MP_PARSE_NODE_IS_TOKEN_KIND(pns->nodes[1], MP_TOKEN_OP_STAR)) {
EMIT_ARG(load_const_small_int, import_level);
// build the "fromlist" tuple
EMIT_ARG(load_const_str, MP_QSTR__star_);
EMIT_ARG(build_tuple, 1);
// do the import
qstr dummy_q;
do_import_name(comp, pn_import_source, &dummy_q);
11 years ago
EMIT(import_star);
11 years ago
} else {
EMIT_ARG(load_const_small_int, import_level);
// build the "fromlist" tuple
mp_parse_node_t *pn_nodes;
int n = mp_parse_node_extract_list(&pns->nodes[1], PN_import_as_names, &pn_nodes);
for (int i = 0; i < n; i++) {
assert(MP_PARSE_NODE_IS_STRUCT_KIND(pn_nodes[i], PN_import_as_name));
mp_parse_node_struct_t *pns3 = (mp_parse_node_struct_t*)pn_nodes[i];
qstr id2 = MP_PARSE_NODE_LEAF_ARG(pns3->nodes[0]); // should be id
EMIT_ARG(load_const_str, id2);
}
EMIT_ARG(build_tuple, n);
// do the import
qstr dummy_q;
do_import_name(comp, pn_import_source, &dummy_q);
11 years ago
for (int i = 0; i < n; i++) {
assert(MP_PARSE_NODE_IS_STRUCT_KIND(pn_nodes[i], PN_import_as_name));
mp_parse_node_struct_t *pns3 = (mp_parse_node_struct_t*)pn_nodes[i];
qstr id2 = MP_PARSE_NODE_LEAF_ARG(pns3->nodes[0]); // should be id
EMIT_ARG(import_from, id2);
if (MP_PARSE_NODE_IS_NULL(pns3->nodes[1])) {
compile_store_id(comp, id2);
11 years ago
} else {
compile_store_id(comp, MP_PARSE_NODE_LEAF_ARG(pns3->nodes[1]));
11 years ago
}
}
EMIT(pop_top);
}
}
STATIC void compile_declare_global(compiler_t *comp, mp_parse_node_t pn, qstr qst) {
bool added;
id_info_t *id_info = scope_find_or_add_id(comp->scope_cur, qst, &added);
if (!added && id_info->kind != ID_INFO_KIND_GLOBAL_EXPLICIT) {
compile_syntax_error(comp, pn, "identifier redefined as global");
return;
}
id_info->kind = ID_INFO_KIND_GLOBAL_EXPLICIT;
// if the id exists in the global scope, set its kind to EXPLICIT_GLOBAL
id_info = scope_find_global(comp->scope_cur, qst);
if (id_info != NULL) {
id_info->kind = ID_INFO_KIND_GLOBAL_EXPLICIT;
}
}
STATIC void compile_global_stmt(compiler_t *comp, mp_parse_node_struct_t *pns) {
if (comp->pass == MP_PASS_SCOPE) {
mp_parse_node_t *nodes;
int n = mp_parse_node_extract_list(&pns->nodes[0], PN_name_list, &nodes);
for (int i = 0; i < n; i++) {
compile_declare_global(comp, (mp_parse_node_t)pns, MP_PARSE_NODE_LEAF_ARG(nodes[i]));
11 years ago
}
}
}
STATIC void compile_declare_nonlocal(compiler_t *comp, mp_parse_node_t pn, qstr qst) {
bool added;
id_info_t *id_info = scope_find_or_add_id(comp->scope_cur, qst, &added);
if (!added && id_info->kind != ID_INFO_KIND_FREE) {
compile_syntax_error(comp, pn, "identifier redefined as nonlocal");
return;
}
id_info_t *id_info2 = scope_find_local_in_parent(comp->scope_cur, qst);
if (id_info2 == NULL || !(id_info2->kind == ID_INFO_KIND_LOCAL || id_info2->kind == ID_INFO_KIND_CELL || id_info2->kind == ID_INFO_KIND_FREE)) {
compile_syntax_error(comp, pn, "no binding for nonlocal found");
return;
}
id_info->kind = ID_INFO_KIND_FREE;
scope_close_over_in_parents(comp->scope_cur, qst);
}
STATIC void compile_nonlocal_stmt(compiler_t *comp, mp_parse_node_struct_t *pns) {
if (comp->pass == MP_PASS_SCOPE) {
if (comp->scope_cur->kind == SCOPE_MODULE) {
compile_syntax_error(comp, (mp_parse_node_t)pns, "can't declare nonlocal in outer code");
return;
}
mp_parse_node_t *nodes;
int n = mp_parse_node_extract_list(&pns->nodes[0], PN_name_list, &nodes);
for (int i = 0; i < n; i++) {
compile_declare_nonlocal(comp, (mp_parse_node_t)pns, MP_PARSE_NODE_LEAF_ARG(nodes[i]));
11 years ago
}
}
}
STATIC void compile_assert_stmt(compiler_t *comp, mp_parse_node_struct_t *pns) {
// with optimisations enabled we don't compile assertions
if (MP_STATE_VM(mp_optimise_value) != 0) {
return;
}
uint l_end = comp_next_label(comp);
11 years ago
c_if_cond(comp, pns->nodes[0], true, l_end);
EMIT_LOAD_GLOBAL(MP_QSTR_AssertionError); // we load_global instead of load_id, to be consistent with CPython
if (!MP_PARSE_NODE_IS_NULL(pns->nodes[1])) {
11 years ago
// assertion message
compile_node(comp, pns->nodes[1]);
EMIT_ARG(call_function, 1, 0, 0);
11 years ago
}
EMIT_ARG(raise_varargs, 1);
EMIT_ARG(label_assign, l_end);
11 years ago
}
STATIC void compile_if_stmt(compiler_t *comp, mp_parse_node_struct_t *pns) {
11 years ago
// TODO proper and/or short circuiting
uint l_end = comp_next_label(comp);
11 years ago
unix-cpy: Remove unix-cpy. It&#39;s no longer needed. unix-cpy was originally written to get semantic equivalent with CPython without writing functional tests. When writing the initial implementation of uPy it was a long way between lexer and functional tests, so the half-way test was to make sure that the bytecode was correct. The idea was that if the uPy bytecode matched CPython 1-1 then uPy would be proper Python if the bytecodes acted correctly. And having matching bytecode meant that it was less likely to miss some deep subtlety in the Python semantics that would require an architectural change later on. But that is all history and it no longer makes sense to retain the ability to output CPython bytecode, because: 1. It outputs CPython 3.3 compatible bytecode. CPython&#39;s bytecode changes from version to version, and seems to have changed quite a bit in 3.5. There&#39;s no point in changing the bytecode output to match CPython anymore. 2. uPy and CPy do different optimisations to the bytecode which makes it harder to match. 3. The bytecode tests are not run. They were never part of Travis and are not run locally anymore. 4. The EMIT_CPYTHON option needs a lot of extra source code which adds heaps of noise, especially in compile.c. 5. Now that there is an extensive test suite (which tests functionality) there is no need to match the bytecode. Some very subtle behaviour is tested with the test suite and passing these tests is a much better way to stay Python-language compliant, rather than trying to match CPy bytecode.
9 years ago
// optimisation: don't emit anything when "if False"
if (!node_is_const_false(pns->nodes[0])) {
uint l_fail = comp_next_label(comp);
c_if_cond(comp, pns->nodes[0], false, l_fail); // if condition
11 years ago
compile_node(comp, pns->nodes[1]); // if block
unix-cpy: Remove unix-cpy. It&#39;s no longer needed. unix-cpy was originally written to get semantic equivalent with CPython without writing functional tests. When writing the initial implementation of uPy it was a long way between lexer and functional tests, so the half-way test was to make sure that the bytecode was correct. The idea was that if the uPy bytecode matched CPython 1-1 then uPy would be proper Python if the bytecodes acted correctly. And having matching bytecode meant that it was less likely to miss some deep subtlety in the Python semantics that would require an architectural change later on. But that is all history and it no longer makes sense to retain the ability to output CPython bytecode, because: 1. It outputs CPython 3.3 compatible bytecode. CPython&#39;s bytecode changes from version to version, and seems to have changed quite a bit in 3.5. There&#39;s no point in changing the bytecode output to match CPython anymore. 2. uPy and CPy do different optimisations to the bytecode which makes it harder to match. 3. The bytecode tests are not run. They were never part of Travis and are not run locally anymore. 4. The EMIT_CPYTHON option needs a lot of extra source code which adds heaps of noise, especially in compile.c. 5. Now that there is an extensive test suite (which tests functionality) there is no need to match the bytecode. Some very subtle behaviour is tested with the test suite and passing these tests is a much better way to stay Python-language compliant, rather than trying to match CPy bytecode.
9 years ago
// optimisation: skip everything else when "if True"
if (node_is_const_true(pns->nodes[0])) {
goto done;
}
if (
unix-cpy: Remove unix-cpy. It&#39;s no longer needed. unix-cpy was originally written to get semantic equivalent with CPython without writing functional tests. When writing the initial implementation of uPy it was a long way between lexer and functional tests, so the half-way test was to make sure that the bytecode was correct. The idea was that if the uPy bytecode matched CPython 1-1 then uPy would be proper Python if the bytecodes acted correctly. And having matching bytecode meant that it was less likely to miss some deep subtlety in the Python semantics that would require an architectural change later on. But that is all history and it no longer makes sense to retain the ability to output CPython bytecode, because: 1. It outputs CPython 3.3 compatible bytecode. CPython&#39;s bytecode changes from version to version, and seems to have changed quite a bit in 3.5. There&#39;s no point in changing the bytecode output to match CPython anymore. 2. uPy and CPy do different optimisations to the bytecode which makes it harder to match. 3. The bytecode tests are not run. They were never part of Travis and are not run locally anymore. 4. The EMIT_CPYTHON option needs a lot of extra source code which adds heaps of noise, especially in compile.c. 5. Now that there is an extensive test suite (which tests functionality) there is no need to match the bytecode. Some very subtle behaviour is tested with the test suite and passing these tests is a much better way to stay Python-language compliant, rather than trying to match CPy bytecode.
9 years ago
// optimisation: don't jump over non-existent elif/else blocks
!(MP_PARSE_NODE_IS_NULL(pns->nodes[2]) && MP_PARSE_NODE_IS_NULL(pns->nodes[3]))
// optimisation: don't jump if last instruction was return
&& !EMIT(last_emit_was_return_value)
) {
// jump over elif/else blocks
EMIT_ARG(jump, l_end);
}
EMIT_ARG(label_assign, l_fail);
}
11 years ago
// compile elif blocks (if any)
mp_parse_node_t *pn_elif;
int n_elif = mp_parse_node_extract_list(&pns->nodes[2], PN_if_stmt_elif_list, &pn_elif);
for (int i = 0; i < n_elif; i++) {
assert(MP_PARSE_NODE_IS_STRUCT_KIND(pn_elif[i], PN_if_stmt_elif)); // should be
mp_parse_node_struct_t *pns_elif = (mp_parse_node_struct_t*)pn_elif[i];
unix-cpy: Remove unix-cpy. It&#39;s no longer needed. unix-cpy was originally written to get semantic equivalent with CPython without writing functional tests. When writing the initial implementation of uPy it was a long way between lexer and functional tests, so the half-way test was to make sure that the bytecode was correct. The idea was that if the uPy bytecode matched CPython 1-1 then uPy would be proper Python if the bytecodes acted correctly. And having matching bytecode meant that it was less likely to miss some deep subtlety in the Python semantics that would require an architectural change later on. But that is all history and it no longer makes sense to retain the ability to output CPython bytecode, because: 1. It outputs CPython 3.3 compatible bytecode. CPython&#39;s bytecode changes from version to version, and seems to have changed quite a bit in 3.5. There&#39;s no point in changing the bytecode output to match CPython anymore. 2. uPy and CPy do different optimisations to the bytecode which makes it harder to match. 3. The bytecode tests are not run. They were never part of Travis and are not run locally anymore. 4. The EMIT_CPYTHON option needs a lot of extra source code which adds heaps of noise, especially in compile.c. 5. Now that there is an extensive test suite (which tests functionality) there is no need to match the bytecode. Some very subtle behaviour is tested with the test suite and passing these tests is a much better way to stay Python-language compliant, rather than trying to match CPy bytecode.
9 years ago
// optimisation: don't emit anything when "if False"
if (!node_is_const_false(pns_elif->nodes[0])) {
uint l_fail = comp_next_label(comp);
c_if_cond(comp, pns_elif->nodes[0], false, l_fail); // elif condition
compile_node(comp, pns_elif->nodes[1]); // elif block
unix-cpy: Remove unix-cpy. It&#39;s no longer needed. unix-cpy was originally written to get semantic equivalent with CPython without writing functional tests. When writing the initial implementation of uPy it was a long way between lexer and functional tests, so the half-way test was to make sure that the bytecode was correct. The idea was that if the uPy bytecode matched CPython 1-1 then uPy would be proper Python if the bytecodes acted correctly. And having matching bytecode meant that it was less likely to miss some deep subtlety in the Python semantics that would require an architectural change later on. But that is all history and it no longer makes sense to retain the ability to output CPython bytecode, because: 1. It outputs CPython 3.3 compatible bytecode. CPython&#39;s bytecode changes from version to version, and seems to have changed quite a bit in 3.5. There&#39;s no point in changing the bytecode output to match CPython anymore. 2. uPy and CPy do different optimisations to the bytecode which makes it harder to match. 3. The bytecode tests are not run. They were never part of Travis and are not run locally anymore. 4. The EMIT_CPYTHON option needs a lot of extra source code which adds heaps of noise, especially in compile.c. 5. Now that there is an extensive test suite (which tests functionality) there is no need to match the bytecode. Some very subtle behaviour is tested with the test suite and passing these tests is a much better way to stay Python-language compliant, rather than trying to match CPy bytecode.
9 years ago
// optimisation: skip everything else when "elif True"
if (node_is_const_true(pns_elif->nodes[0])) {
goto done;
}
// optimisation: don't jump if last instruction was return
if (!EMIT(last_emit_was_return_value)) {
EMIT_ARG(jump, l_end);
}
EMIT_ARG(label_assign, l_fail);
11 years ago
}
}
// compile else block
compile_node(comp, pns->nodes[3]); // can be null
done:
EMIT_ARG(label_assign, l_end);
11 years ago
}
#define START_BREAK_CONTINUE_BLOCK \
uint16_t old_break_label = comp->break_label; \
uint16_t old_continue_label = comp->continue_label; \
uint16_t old_break_continue_except_level = comp->break_continue_except_level; \
uint break_label = comp_next_label(comp); \
uint continue_label = comp_next_label(comp); \
comp->break_label = break_label; \
comp->continue_label = continue_label; \
comp->break_continue_except_level = comp->cur_except_level;
11 years ago
#define END_BREAK_CONTINUE_BLOCK \
comp->break_label = old_break_label; \
comp->continue_label = old_continue_label; \
comp->break_continue_except_level = old_break_continue_except_level;
11 years ago
STATIC void compile_while_stmt(compiler_t *comp, mp_parse_node_struct_t *pns) {
START_BREAK_CONTINUE_BLOCK
11 years ago
if (!node_is_const_false(pns->nodes[0])) { // optimisation: don't emit anything for "while False"
uint top_label = comp_next_label(comp);
if (!node_is_const_true(pns->nodes[0])) { // optimisation: don't jump to cond for "while True"
EMIT_ARG(jump, continue_label);
}
EMIT_ARG(label_assign, top_label);
compile_node(comp, pns->nodes[1]); // body
EMIT_ARG(label_assign, continue_label);
c_if_cond(comp, pns->nodes[0], true, top_label); // condition
}
// break/continue apply to outer loop (if any) in the else block
END_BREAK_CONTINUE_BLOCK
11 years ago
compile_node(comp, pns->nodes[2]); // else
EMIT_ARG(label_assign, break_label);
11 years ago
}
// This function compiles an optimised for-loop of the form:
// for <var> in range(<start>, <end>, <step>):
// <body>
// else:
// <else>
// <var> must be an identifier and <step> must be a small-int.
//
// Semantics of for-loop require:
// - final failing value should not be stored in the loop variable
// - if the loop never runs, the loop variable should never be assigned
// - assignments to <var>, <end> or <step> in the body do not alter the loop
// (<step> is a constant for us, so no need to worry about it changing)
//
// If <end> is a small-int, then the stack during the for-loop contains just
// the current value of <var>. Otherwise, the stack contains <end> then the
// current value of <var>.
STATIC void compile_for_stmt_optimised_range(compiler_t *comp, mp_parse_node_t pn_var, mp_parse_node_t pn_start, mp_parse_node_t pn_end, mp_parse_node_t pn_step, mp_parse_node_t pn_body, mp_parse_node_t pn_else) {
START_BREAK_CONTINUE_BLOCK
uint top_label = comp_next_label(comp);
uint entry_label = comp_next_label(comp);
// put the end value on the stack if it's not a small-int constant
bool end_on_stack = !MP_PARSE_NODE_IS_SMALL_INT(pn_end);
if (end_on_stack) {
compile_node(comp, pn_end);
}
// compile: start
compile_node(comp, pn_start);
EMIT_ARG(jump, entry_label);
EMIT_ARG(label_assign, top_label);
// duplicate next value and store it to var
EMIT(dup_top);
c_assign(comp, pn_var, ASSIGN_STORE);
// compile body
compile_node(comp, pn_body);
EMIT_ARG(label_assign, continue_label);
// compile: var + step
compile_node(comp, pn_step);
EMIT_ARG(binary_op, MP_BINARY_OP_INPLACE_ADD);
EMIT_ARG(label_assign, entry_label);
// compile: if var <cond> end: goto top
if (end_on_stack) {
EMIT(dup_top_two);
EMIT(rot_two);
} else {
EMIT(dup_top);
compile_node(comp, pn_end);
}
assert(MP_PARSE_NODE_IS_SMALL_INT(pn_step));
if (MP_PARSE_NODE_LEAF_SMALL_INT(pn_step) >= 0) {
EMIT_ARG(binary_op, MP_BINARY_OP_LESS);
} else {
EMIT_ARG(binary_op, MP_BINARY_OP_MORE);
}
EMIT_ARG(pop_jump_if, true, top_label);
// break/continue apply to outer loop (if any) in the else block
END_BREAK_CONTINUE_BLOCK
compile_node(comp, pn_else);
EMIT_ARG(label_assign, break_label);
// discard final value of var that failed the loop condition
EMIT(pop_top);
// discard <end> value if it's on the stack
if (end_on_stack) {
EMIT(pop_top);
}
}
STATIC void compile_for_stmt(compiler_t *comp, mp_parse_node_struct_t *pns) {
// this bit optimises: for <x> in range(...), turning it into an explicitly incremented variable
// this is actually slower, but uses no heap memory
// for viper it will be much, much faster
if (/*comp->scope_cur->emit_options == MP_EMIT_OPT_VIPER &&*/ MP_PARSE_NODE_IS_ID(pns->nodes[0]) && MP_PARSE_NODE_IS_STRUCT_KIND(pns->nodes[1], PN_atom_expr_normal)) {
mp_parse_node_struct_t *pns_it = (mp_parse_node_struct_t*)pns->nodes[1];
if (MP_PARSE_NODE_IS_ID(pns_it->nodes[0])
&& MP_PARSE_NODE_LEAF_ARG(pns_it->nodes[0]) == MP_QSTR_range
&& MP_PARSE_NODE_IS_STRUCT_KIND(pns_it->nodes[1], PN_trailer_paren)) {
mp_parse_node_t pn_range_args = ((mp_parse_node_struct_t*)pns_it->nodes[1])->nodes[0];
mp_parse_node_t *args;
int n_args = mp_parse_node_extract_list(&pn_range_args, PN_arglist, &args);
mp_parse_node_t pn_range_start;
mp_parse_node_t pn_range_end;
mp_parse_node_t pn_range_step;
bool optimize = false;
if (1 <= n_args && n_args <= 3) {
optimize = true;
if (n_args == 1) {
pn_range_start = mp_parse_node_new_leaf(MP_PARSE_NODE_SMALL_INT, 0);
pn_range_end = args[0];
pn_range_step = mp_parse_node_new_leaf(MP_PARSE_NODE_SMALL_INT, 1);
} else if (n_args == 2) {
pn_range_start = args[0];
pn_range_end = args[1];
pn_range_step = mp_parse_node_new_leaf(MP_PARSE_NODE_SMALL_INT, 1);
} else {
pn_range_start = args[0];
pn_range_end = args[1];
pn_range_step = args[2];
// We need to know sign of step. This is possible only if it's constant
if (!MP_PARSE_NODE_IS_SMALL_INT(pn_range_step)) {
optimize = false;
}
}
// arguments must be able to be compiled as standard expressions
if (optimize && MP_PARSE_NODE_IS_STRUCT(pn_range_start)) {
int k = MP_PARSE_NODE_STRUCT_KIND((mp_parse_node_struct_t*)pn_range_start);
if (k == PN_arglist_star || k == PN_arglist_dbl_star || k == PN_argument) {
optimize = false;
}
}
if (optimize && MP_PARSE_NODE_IS_STRUCT(pn_range_end)) {
int k = MP_PARSE_NODE_STRUCT_KIND((mp_parse_node_struct_t*)pn_range_end);
if (k == PN_arglist_star || k == PN_arglist_dbl_star || k == PN_argument) {
optimize = false;
}
}
}
if (optimize) {
compile_for_stmt_optimised_range(comp, pns->nodes[0], pn_range_start, pn_range_end, pn_range_step, pns->nodes[2], pns->nodes[3]);
return;
}
}
}
START_BREAK_CONTINUE_BLOCK
comp->break_label |= MP_EMIT_BREAK_FROM_FOR;
11 years ago
uint pop_label = comp_next_label(comp);
11 years ago
compile_node(comp, pns->nodes[1]); // iterator
EMIT(get_iter);
EMIT_ARG(label_assign, continue_label);
EMIT_ARG(for_iter, pop_label);
11 years ago
c_assign(comp, pns->nodes[0], ASSIGN_STORE); // variable
compile_node(comp, pns->nodes[2]); // body
if (!EMIT(last_emit_was_return_value)) {
EMIT_ARG(jump, continue_label);
11 years ago
}
EMIT_ARG(label_assign, pop_label);
11 years ago
EMIT(for_iter_end);
// break/continue apply to outer loop (if any) in the else block
END_BREAK_CONTINUE_BLOCK
11 years ago
compile_node(comp, pns->nodes[3]); // else (not tested)
EMIT_ARG(label_assign, break_label);
11 years ago
}
STATIC void compile_try_except(compiler_t *comp, mp_parse_node_t pn_body, int n_except, mp_parse_node_t *pn_excepts, mp_parse_node_t pn_else) {
11 years ago
// setup code
uint l1 = comp_next_label(comp);
uint success_label = comp_next_label(comp);
EMIT_ARG(setup_except, l1);
compile_increase_except_level(comp);
11 years ago
compile_node(comp, pn_body); // body
EMIT(pop_block);
EMIT_ARG(jump, success_label); // jump over exception handler
EMIT_ARG(label_assign, l1); // start of exception handler
EMIT(start_except_handler);
// at this point the top of the stack contains the exception instance that was raised
uint l2 = comp_next_label(comp);
11 years ago
for (int i = 0; i < n_except; i++) {
assert(MP_PARSE_NODE_IS_STRUCT_KIND(pn_excepts[i], PN_try_stmt_except)); // should be
mp_parse_node_struct_t *pns_except = (mp_parse_node_struct_t*)pn_excepts[i];
11 years ago
qstr qstr_exception_local = 0;
uint end_finally_label = comp_next_label(comp);
11 years ago
if (MP_PARSE_NODE_IS_NULL(pns_except->nodes[0])) {
11 years ago
// this is a catch all exception handler
if (i + 1 != n_except) {
compile_syntax_error(comp, pn_excepts[i], "default 'except:' must be last");
compile_decrease_except_level(comp);
11 years ago
return;
}
} else {
// this exception handler requires a match to a certain type of exception
mp_parse_node_t pns_exception_expr = pns_except->nodes[0];
if (MP_PARSE_NODE_IS_STRUCT(pns_exception_expr)) {
mp_parse_node_struct_t *pns3 = (mp_parse_node_struct_t*)pns_exception_expr;
if (MP_PARSE_NODE_STRUCT_KIND(pns3) == PN_try_stmt_as_name) {
11 years ago
// handler binds the exception to a local
pns_exception_expr = pns3->nodes[0];
qstr_exception_local = MP_PARSE_NODE_LEAF_ARG(pns3->nodes[1]);
11 years ago
}
}
EMIT(dup_top);
compile_node(comp, pns_exception_expr);
EMIT_ARG(binary_op, MP_BINARY_OP_EXCEPTION_MATCH);
EMIT_ARG(pop_jump_if, false, end_finally_label);
11 years ago
}
// either discard or store the exception instance
11 years ago
if (qstr_exception_local == 0) {
EMIT(pop_top);
} else {
compile_store_id(comp, qstr_exception_local);
11 years ago
}
uint l3 = 0;
11 years ago
if (qstr_exception_local != 0) {
l3 = comp_next_label(comp);
EMIT_ARG(setup_finally, l3);
compile_increase_except_level(comp);
11 years ago
}
compile_node(comp, pns_except->nodes[1]);
if (qstr_exception_local != 0) {
EMIT(pop_block);
}
EMIT(pop_except);
if (qstr_exception_local != 0) {
EMIT_ARG(load_const_tok, MP_TOKEN_KW_NONE);
EMIT_ARG(label_assign, l3);
EMIT_ARG(load_const_tok, MP_TOKEN_KW_NONE);
compile_store_id(comp, qstr_exception_local);
compile_delete_id(comp, qstr_exception_local);
compile_decrease_except_level(comp);
11 years ago
EMIT(end_finally);
}
EMIT_ARG(jump, l2);
EMIT_ARG(label_assign, end_finally_label);
EMIT_ARG(adjust_stack_size, 1); // stack adjust for the exception instance
11 years ago
}
compile_decrease_except_level(comp);
11 years ago
EMIT(end_finally);
EMIT(end_except_handler);
EMIT_ARG(label_assign, success_label);
11 years ago
compile_node(comp, pn_else); // else block, can be null
EMIT_ARG(label_assign, l2);
11 years ago
}
STATIC void compile_try_finally(compiler_t *comp, mp_parse_node_t pn_body, int n_except, mp_parse_node_t *pn_except, mp_parse_node_t pn_else, mp_parse_node_t pn_finally) {
uint l_finally_block = comp_next_label(comp);
EMIT_ARG(setup_finally, l_finally_block);
compile_increase_except_level(comp);
11 years ago
if (n_except == 0) {
assert(MP_PARSE_NODE_IS_NULL(pn_else));
EMIT_ARG(adjust_stack_size, 3); // stack adjust for possible UNWIND_JUMP state
11 years ago
compile_node(comp, pn_body);
EMIT_ARG(adjust_stack_size, -3);
11 years ago
} else {
compile_try_except(comp, pn_body, n_except, pn_except, pn_else);
}
EMIT(pop_block);
EMIT_ARG(load_const_tok, MP_TOKEN_KW_NONE);
EMIT_ARG(label_assign, l_finally_block);
11 years ago
compile_node(comp, pn_finally);
compile_decrease_except_level(comp);
11 years ago
EMIT(end_finally);
}
STATIC void compile_try_stmt(compiler_t *comp, mp_parse_node_struct_t *pns) {
assert(MP_PARSE_NODE_IS_STRUCT(pns->nodes[1])); // should be
{
mp_parse_node_struct_t *pns2 = (mp_parse_node_struct_t*)pns->nodes[1];
if (MP_PARSE_NODE_STRUCT_KIND(pns2) == PN_try_stmt_finally) {
11 years ago
// just try-finally
compile_try_finally(comp, pns->nodes[0], 0, NULL, MP_PARSE_NODE_NULL, pns2->nodes[0]);
} else if (MP_PARSE_NODE_STRUCT_KIND(pns2) == PN_try_stmt_except_and_more) {
11 years ago
// try-except and possibly else and/or finally
mp_parse_node_t *pn_excepts;
int n_except = mp_parse_node_extract_list(&pns2->nodes[0], PN_try_stmt_except_list, &pn_excepts);
if (MP_PARSE_NODE_IS_NULL(pns2->nodes[2])) {
11 years ago
// no finally
compile_try_except(comp, pns->nodes[0], n_except, pn_excepts, pns2->nodes[1]);
} else {
// have finally
compile_try_finally(comp, pns->nodes[0], n_except, pn_excepts, pns2->nodes[1], ((mp_parse_node_struct_t*)pns2->nodes[2])->nodes[0]);
11 years ago
}
} else {
// just try-except
mp_parse_node_t *pn_excepts;
int n_except = mp_parse_node_extract_list(&pns->nodes[1], PN_try_stmt_except_list, &pn_excepts);
compile_try_except(comp, pns->nodes[0], n_except, pn_excepts, MP_PARSE_NODE_NULL);
11 years ago
}
}
}
STATIC void compile_with_stmt_helper(compiler_t *comp, int n, mp_parse_node_t *nodes, mp_parse_node_t body) {
11 years ago
if (n == 0) {
// no more pre-bits, compile the body of the with
compile_node(comp, body);
} else {
uint l_end = comp_next_label(comp);
if (MICROPY_EMIT_NATIVE && comp->scope_cur->emit_options != MP_EMIT_OPT_BYTECODE) {
// we need to allocate an extra label for the native emitter
// it will use l_end+1 as an auxiliary label
comp_next_label(comp);
}
if (MP_PARSE_NODE_IS_STRUCT_KIND(nodes[0], PN_with_item)) {
11 years ago
// this pre-bit is of the form "a as b"
mp_parse_node_struct_t *pns = (mp_parse_node_struct_t*)nodes[0];
11 years ago
compile_node(comp, pns->nodes[0]);
EMIT_ARG(setup_with, l_end);
11 years ago
c_assign(comp, pns->nodes[1], ASSIGN_STORE);
} else {
// this pre-bit is just an expression
compile_node(comp, nodes[0]);
EMIT_ARG(setup_with, l_end);
11 years ago
EMIT(pop_top);
}
compile_increase_except_level(comp);
11 years ago
// compile additional pre-bits and the body
compile_with_stmt_helper(comp, n - 1, nodes + 1, body);
// finish this with block
EMIT_ARG(with_cleanup, l_end);
compile_decrease_except_level(comp);
11 years ago
EMIT(end_finally);
}
}
STATIC void compile_with_stmt(compiler_t *comp, mp_parse_node_struct_t *pns) {
11 years ago
// get the nodes for the pre-bit of the with (the a as b, c as d, ... bit)
mp_parse_node_t *nodes;
int n = mp_parse_node_extract_list(&pns->nodes[0], PN_with_stmt_list, &nodes);
11 years ago
assert(n > 0);
// compile in a nested fashion
compile_with_stmt_helper(comp, n, nodes, pns->nodes[1]);
}
STATIC void compile_yield_from(compiler_t *comp) {
EMIT(get_iter);
EMIT_ARG(load_const_tok, MP_TOKEN_KW_NONE);
EMIT(yield_from);
}
#if MICROPY_PY_ASYNC_AWAIT
STATIC void compile_await_object_method(compiler_t *comp, qstr method) {
EMIT_ARG(load_method, method);
EMIT_ARG(call_method, 0, 0, 0);
compile_yield_from(comp);
}
STATIC void compile_async_for_stmt(compiler_t *comp, mp_parse_node_struct_t *pns) {
// comp->break_label |= MP_EMIT_BREAK_FROM_FOR;
qstr context = MP_PARSE_NODE_LEAF_ARG(pns->nodes[1]);
uint while_else_label = comp_next_label(comp);
uint try_exception_label = comp_next_label(comp);
uint try_else_label = comp_next_label(comp);
uint try_finally_label = comp_next_label(comp);
compile_node(comp, pns->nodes[1]); // iterator
compile_await_object_method(comp, MP_QSTR___aiter__);
compile_store_id(comp, context);
START_BREAK_CONTINUE_BLOCK
EMIT_ARG(label_assign, continue_label);
EMIT_ARG(setup_except, try_exception_label);
compile_increase_except_level(comp);
compile_load_id(comp, context);
compile_await_object_method(comp, MP_QSTR___anext__);
c_assign(comp, pns->nodes[0], ASSIGN_STORE); // variable
EMIT(pop_block);
EMIT_ARG(jump, try_else_label);
EMIT_ARG(label_assign, try_exception_label);
EMIT(start_except_handler);
EMIT(dup_top);
EMIT_LOAD_GLOBAL(MP_QSTR_StopAsyncIteration);
EMIT_ARG(binary_op, MP_BINARY_OP_EXCEPTION_MATCH);
EMIT_ARG(pop_jump_if, false, try_finally_label);
EMIT(pop_top);
EMIT(pop_top);
EMIT(pop_top);
EMIT(pop_except);
EMIT_ARG(jump, while_else_label);
EMIT_ARG(label_assign, try_finally_label);
EMIT_ARG(adjust_stack_size, 3);
compile_decrease_except_level(comp);
EMIT(end_finally);
EMIT(end_except_handler);
EMIT_ARG(label_assign, try_else_label);
compile_node(comp, pns->nodes[2]); // body
EMIT_ARG(jump, continue_label);
// break/continue apply to outer loop (if any) in the else block
END_BREAK_CONTINUE_BLOCK
EMIT_ARG(label_assign, while_else_label);
compile_node(comp, pns->nodes[3]); // else
EMIT_ARG(label_assign, break_label);
}
STATIC void compile_async_with_stmt_helper(compiler_t *comp, int n, mp_parse_node_t *nodes, mp_parse_node_t body) {
if (n == 0) {
// no more pre-bits, compile the body of the with
compile_node(comp, body);
} else {
uint try_exception_label = comp_next_label(comp);
uint no_reraise_label = comp_next_label(comp);
uint try_else_label = comp_next_label(comp);
uint end_label = comp_next_label(comp);
qstr context;
if (MP_PARSE_NODE_IS_STRUCT_KIND(nodes[0], PN_with_item)) {
// this pre-bit is of the form "a as b"
mp_parse_node_struct_t *pns = (mp_parse_node_struct_t*)nodes[0];
compile_node(comp, pns->nodes[0]);
context = MP_PARSE_NODE_LEAF_ARG(pns->nodes[0]);
compile_store_id(comp, context);
compile_load_id(comp, context);
compile_await_object_method(comp, MP_QSTR___aenter__);
c_assign(comp, pns->nodes[1], ASSIGN_STORE);
} else {
// this pre-bit is just an expression
compile_node(comp, nodes[0]);
context = MP_PARSE_NODE_LEAF_ARG(nodes[0]);
compile_store_id(comp, context);
compile_load_id(comp, context);
compile_await_object_method(comp, MP_QSTR___aenter__);
EMIT(pop_top);
}
compile_load_id(comp, context);
EMIT_ARG(load_method, MP_QSTR___aexit__);
EMIT_ARG(setup_except, try_exception_label);
compile_increase_except_level(comp);
// compile additional pre-bits and the body
compile_async_with_stmt_helper(comp, n - 1, nodes + 1, body);
// finish this with block
EMIT(pop_block);
EMIT_ARG(jump, try_else_label); // jump over exception handler
EMIT_ARG(label_assign, try_exception_label); // start of exception handler
EMIT(start_except_handler);
EMIT(rot_three);
EMIT(rot_two);
EMIT_ARG(call_method, 3, 0, 0);
compile_yield_from(comp);
EMIT_ARG(pop_jump_if, true, no_reraise_label);
EMIT_ARG(raise_varargs, 0);
EMIT_ARG(label_assign, no_reraise_label);
EMIT(pop_except);
EMIT_ARG(jump, end_label);
EMIT_ARG(adjust_stack_size, 5);
compile_decrease_except_level(comp);
EMIT(end_finally);
EMIT(end_except_handler);
EMIT_ARG(label_assign, try_else_label); // start of try-else handler
EMIT_ARG(load_const_tok, MP_TOKEN_KW_NONE);
EMIT(dup_top);
EMIT(dup_top);
EMIT_ARG(call_method, 3, 0, 0);
compile_yield_from(comp);
EMIT(pop_top);
EMIT_ARG(label_assign, end_label);
}
}
STATIC void compile_async_with_stmt(compiler_t *comp, mp_parse_node_struct_t *pns) {
// get the nodes for the pre-bit of the with (the a as b, c as d, ... bit)
mp_parse_node_t *nodes;
int n = mp_parse_node_extract_list(&pns->nodes[0], PN_with_stmt_list, &nodes);
assert(n > 0);
// compile in a nested fashion
compile_async_with_stmt_helper(comp, n, nodes, pns->nodes[1]);
}
STATIC void compile_async_stmt(compiler_t *comp, mp_parse_node_struct_t *pns) {
assert(MP_PARSE_NODE_IS_STRUCT(pns->nodes[0]));
mp_parse_node_struct_t *pns0 = (mp_parse_node_struct_t*)pns->nodes[0];
if (MP_PARSE_NODE_STRUCT_KIND(pns0) == PN_funcdef) {
// async def
compile_funcdef(comp, pns0);
scope_t *fscope = (scope_t*)pns0->nodes[4];
fscope->scope_flags |= MP_SCOPE_FLAG_GENERATOR;
} else if (MP_PARSE_NODE_STRUCT_KIND(pns0) == PN_for_stmt) {
// async for
compile_async_for_stmt(comp, pns0);
} else {
// async with
assert(MP_PARSE_NODE_STRUCT_KIND(pns0) == PN_with_stmt);
compile_async_with_stmt(comp, pns0);
}
}
#endif
STATIC void compile_expr_stmt(compiler_t *comp, mp_parse_node_struct_t *pns) {
if (MP_PARSE_NODE_IS_NULL(pns->nodes[1])) {
11 years ago
if (comp->is_repl && comp->scope_cur->kind == SCOPE_MODULE) {
// for REPL, evaluate then print the expression
compile_load_id(comp, MP_QSTR___repl_print__);
11 years ago
compile_node(comp, pns->nodes[0]);
EMIT_ARG(call_function, 1, 0, 0);
11 years ago
EMIT(pop_top);
11 years ago
} else {
11 years ago
// for non-REPL, evaluate then discard the expression
if ((MP_PARSE_NODE_IS_LEAF(pns->nodes[0]) && !MP_PARSE_NODE_IS_ID(pns->nodes[0]))
|| MP_PARSE_NODE_IS_STRUCT_KIND(pns->nodes[0], PN_string)
|| MP_PARSE_NODE_IS_STRUCT_KIND(pns->nodes[0], PN_bytes)
|| MP_PARSE_NODE_IS_STRUCT_KIND(pns->nodes[0], PN_const_object)) {
11 years ago
// do nothing with a lonely constant
} else {
compile_node(comp, pns->nodes[0]); // just an expression
EMIT(pop_top); // discard last result since this is a statement and leaves nothing on the stack
}
11 years ago
}
} else if (MP_PARSE_NODE_IS_STRUCT(pns->nodes[1])) {
mp_parse_node_struct_t *pns1 = (mp_parse_node_struct_t*)pns->nodes[1];
int kind = MP_PARSE_NODE_STRUCT_KIND(pns1);
11 years ago
if (kind == PN_expr_stmt_augassign) {
c_assign(comp, pns->nodes[0], ASSIGN_AUG_LOAD); // lhs load for aug assign
compile_node(comp, pns1->nodes[1]); // rhs
assert(MP_PARSE_NODE_IS_TOKEN(pns1->nodes[0]));
mp_binary_op_t op;
switch (MP_PARSE_NODE_LEAF_ARG(pns1->nodes[0])) {
case MP_TOKEN_DEL_PIPE_EQUAL: op = MP_BINARY_OP_INPLACE_OR; break;
case MP_TOKEN_DEL_CARET_EQUAL: op = MP_BINARY_OP_INPLACE_XOR; break;
case MP_TOKEN_DEL_AMPERSAND_EQUAL: op = MP_BINARY_OP_INPLACE_AND; break;
case MP_TOKEN_DEL_DBL_LESS_EQUAL: op = MP_BINARY_OP_INPLACE_LSHIFT; break;
case MP_TOKEN_DEL_DBL_MORE_EQUAL: op = MP_BINARY_OP_INPLACE_RSHIFT; break;
case MP_TOKEN_DEL_PLUS_EQUAL: op = MP_BINARY_OP_INPLACE_ADD; break;
case MP_TOKEN_DEL_MINUS_EQUAL: op = MP_BINARY_OP_INPLACE_SUBTRACT; break;
case MP_TOKEN_DEL_STAR_EQUAL: op = MP_BINARY_OP_INPLACE_MULTIPLY; break;
case MP_TOKEN_DEL_DBL_SLASH_EQUAL: op = MP_BINARY_OP_INPLACE_FLOOR_DIVIDE; break;
case MP_TOKEN_DEL_SLASH_EQUAL: op = MP_BINARY_OP_INPLACE_TRUE_DIVIDE; break;
case MP_TOKEN_DEL_PERCENT_EQUAL: op = MP_BINARY_OP_INPLACE_MODULO; break;
case MP_TOKEN_DEL_DBL_STAR_EQUAL: default: op = MP_BINARY_OP_INPLACE_POWER; break;
11 years ago
}
EMIT_ARG(binary_op, op);
11 years ago
c_assign(comp, pns->nodes[0], ASSIGN_AUG_STORE); // lhs store for aug assign
} else if (kind == PN_expr_stmt_assign_list) {
int rhs = MP_PARSE_NODE_STRUCT_NUM_NODES(pns1) - 1;
compile_node(comp, pns1->nodes[rhs]); // rhs
11 years ago
// following CPython, we store left-most first
if (rhs > 0) {
EMIT(dup_top);
}
c_assign(comp, pns->nodes[0], ASSIGN_STORE); // lhs store
for (int i = 0; i < rhs; i++) {
if (i + 1 < rhs) {
EMIT(dup_top);
}
c_assign(comp, pns1->nodes[i], ASSIGN_STORE); // middle store
11 years ago
}
} else {
plain_assign:
if (MICROPY_COMP_DOUBLE_TUPLE_ASSIGN
&& MP_PARSE_NODE_IS_STRUCT_KIND(pns->nodes[1], PN_testlist_star_expr)
&& MP_PARSE_NODE_IS_STRUCT_KIND(pns->nodes[0], PN_testlist_star_expr)
&& MP_PARSE_NODE_STRUCT_NUM_NODES((mp_parse_node_struct_t*)pns->nodes[1]) == 2
&& MP_PARSE_NODE_STRUCT_NUM_NODES((mp_parse_node_struct_t*)pns->nodes[0]) == 2) {
unix-cpy: Remove unix-cpy. It&#39;s no longer needed. unix-cpy was originally written to get semantic equivalent with CPython without writing functional tests. When writing the initial implementation of uPy it was a long way between lexer and functional tests, so the half-way test was to make sure that the bytecode was correct. The idea was that if the uPy bytecode matched CPython 1-1 then uPy would be proper Python if the bytecodes acted correctly. And having matching bytecode meant that it was less likely to miss some deep subtlety in the Python semantics that would require an architectural change later on. But that is all history and it no longer makes sense to retain the ability to output CPython bytecode, because: 1. It outputs CPython 3.3 compatible bytecode. CPython&#39;s bytecode changes from version to version, and seems to have changed quite a bit in 3.5. There&#39;s no point in changing the bytecode output to match CPython anymore. 2. uPy and CPy do different optimisations to the bytecode which makes it harder to match. 3. The bytecode tests are not run. They were never part of Travis and are not run locally anymore. 4. The EMIT_CPYTHON option needs a lot of extra source code which adds heaps of noise, especially in compile.c. 5. Now that there is an extensive test suite (which tests functionality) there is no need to match the bytecode. Some very subtle behaviour is tested with the test suite and passing these tests is a much better way to stay Python-language compliant, rather than trying to match CPy bytecode.
9 years ago
// optimisation for a, b = c, d
mp_parse_node_struct_t *pns10 = (mp_parse_node_struct_t*)pns->nodes[1];
mp_parse_node_struct_t *pns0 = (mp_parse_node_struct_t*)pns->nodes[0];
if (MP_PARSE_NODE_IS_STRUCT_KIND(pns0->nodes[0], PN_star_expr)
|| MP_PARSE_NODE_IS_STRUCT_KIND(pns0->nodes[1], PN_star_expr)) {
// can't optimise when it's a star expression on the lhs
goto no_optimisation;
}
11 years ago
compile_node(comp, pns10->nodes[0]); // rhs
compile_node(comp, pns10->nodes[1]); // rhs
EMIT(rot_two);
c_assign(comp, pns0->nodes[0], ASSIGN_STORE); // lhs store
c_assign(comp, pns0->nodes[1], ASSIGN_STORE); // lhs store
} else if (MICROPY_COMP_TRIPLE_TUPLE_ASSIGN
&& MP_PARSE_NODE_IS_STRUCT_KIND(pns->nodes[1], PN_testlist_star_expr)
&& MP_PARSE_NODE_IS_STRUCT_KIND(pns->nodes[0], PN_testlist_star_expr)
&& MP_PARSE_NODE_STRUCT_NUM_NODES((mp_parse_node_struct_t*)pns->nodes[1]) == 3
&& MP_PARSE_NODE_STRUCT_NUM_NODES((mp_parse_node_struct_t*)pns->nodes[0]) == 3) {
unix-cpy: Remove unix-cpy. It&#39;s no longer needed. unix-cpy was originally written to get semantic equivalent with CPython without writing functional tests. When writing the initial implementation of uPy it was a long way between lexer and functional tests, so the half-way test was to make sure that the bytecode was correct. The idea was that if the uPy bytecode matched CPython 1-1 then uPy would be proper Python if the bytecodes acted correctly. And having matching bytecode meant that it was less likely to miss some deep subtlety in the Python semantics that would require an architectural change later on. But that is all history and it no longer makes sense to retain the ability to output CPython bytecode, because: 1. It outputs CPython 3.3 compatible bytecode. CPython&#39;s bytecode changes from version to version, and seems to have changed quite a bit in 3.5. There&#39;s no point in changing the bytecode output to match CPython anymore. 2. uPy and CPy do different optimisations to the bytecode which makes it harder to match. 3. The bytecode tests are not run. They were never part of Travis and are not run locally anymore. 4. The EMIT_CPYTHON option needs a lot of extra source code which adds heaps of noise, especially in compile.c. 5. Now that there is an extensive test suite (which tests functionality) there is no need to match the bytecode. Some very subtle behaviour is tested with the test suite and passing these tests is a much better way to stay Python-language compliant, rather than trying to match CPy bytecode.
9 years ago
// optimisation for a, b, c = d, e, f
mp_parse_node_struct_t *pns10 = (mp_parse_node_struct_t*)pns->nodes[1];
mp_parse_node_struct_t *pns0 = (mp_parse_node_struct_t*)pns->nodes[0];
if (MP_PARSE_NODE_IS_STRUCT_KIND(pns0->nodes[0], PN_star_expr)
|| MP_PARSE_NODE_IS_STRUCT_KIND(pns0->nodes[1], PN_star_expr)
|| MP_PARSE_NODE_IS_STRUCT_KIND(pns0->nodes[2], PN_star_expr)) {
// can't optimise when it's a star expression on the lhs
goto no_optimisation;
}
11 years ago
compile_node(comp, pns10->nodes[0]); // rhs
compile_node(comp, pns10->nodes[1]); // rhs
compile_node(comp, pns10->nodes[2]); // rhs
EMIT(rot_three);
EMIT(rot_two);
c_assign(comp, pns0->nodes[0], ASSIGN_STORE); // lhs store
c_assign(comp, pns0->nodes[1], ASSIGN_STORE); // lhs store
c_assign(comp, pns0->nodes[2], ASSIGN_STORE); // lhs store
} else {
no_optimisation:
compile_node(comp, pns->nodes[1]); // rhs
11 years ago
c_assign(comp, pns->nodes[0], ASSIGN_STORE); // lhs store
}
}
} else {
goto plain_assign;
11 years ago
}
}
STATIC void c_binary_op(compiler_t *comp, mp_parse_node_struct_t *pns, mp_binary_op_t binary_op) {
int num_nodes = MP_PARSE_NODE_STRUCT_NUM_NODES(pns);
11 years ago
compile_node(comp, pns->nodes[0]);
for (int i = 1; i < num_nodes; i += 1) {
compile_node(comp, pns->nodes[i]);
EMIT_ARG(binary_op, binary_op);
11 years ago
}
}
STATIC void compile_test_if_expr(compiler_t *comp, mp_parse_node_struct_t *pns) {
assert(MP_PARSE_NODE_IS_STRUCT_KIND(pns->nodes[1], PN_test_if_else));
mp_parse_node_struct_t *pns_test_if_else = (mp_parse_node_struct_t*)pns->nodes[1];
11 years ago
uint l_fail = comp_next_label(comp);
uint l_end = comp_next_label(comp);
11 years ago
c_if_cond(comp, pns_test_if_else->nodes[0], false, l_fail); // condition
compile_node(comp, pns->nodes[0]); // success value
EMIT_ARG(jump, l_end);
EMIT_ARG(label_assign, l_fail);
EMIT_ARG(adjust_stack_size, -1); // adjust stack size
11 years ago
compile_node(comp, pns_test_if_else->nodes[1]); // failure value
EMIT_ARG(label_assign, l_end);
11 years ago
}
STATIC void compile_lambdef(compiler_t *comp, mp_parse_node_struct_t *pns) {
if (comp->pass == MP_PASS_SCOPE) {
11 years ago
// create a new scope for this lambda
scope_t *s = scope_new_and_link(comp, SCOPE_LAMBDA, (mp_parse_node_t)pns, comp->scope_cur->emit_options);
11 years ago
// store the lambda scope so the compiling function (this one) can use it at each pass
pns->nodes[2] = (mp_parse_node_t)s;
11 years ago
}
// get the scope for this lambda
scope_t *this_scope = (scope_t*)pns->nodes[2];
// compile the lambda definition
compile_funcdef_lambdef(comp, this_scope, pns->nodes[0], PN_varargslist);
11 years ago
}
STATIC void compile_or_and_test(compiler_t *comp, mp_parse_node_struct_t *pns, bool cond) {
uint l_end = comp_next_label(comp);
int n = MP_PARSE_NODE_STRUCT_NUM_NODES(pns);
11 years ago
for (int i = 0; i < n; i += 1) {
compile_node(comp, pns->nodes[i]);
if (i + 1 < n) {
EMIT_ARG(jump_if_or_pop, cond, l_end);
11 years ago
}
}
EMIT_ARG(label_assign, l_end);
11 years ago
}
STATIC void compile_or_test(compiler_t *comp, mp_parse_node_struct_t *pns) {
compile_or_and_test(comp, pns, true);
}
STATIC void compile_and_test(compiler_t *comp, mp_parse_node_struct_t *pns) {
compile_or_and_test(comp, pns, false);
11 years ago
}
STATIC void compile_not_test_2(compiler_t *comp, mp_parse_node_struct_t *pns) {
11 years ago
compile_node(comp, pns->nodes[0]);
EMIT_ARG(unary_op, MP_UNARY_OP_NOT);
11 years ago
}
STATIC void compile_comparison(compiler_t *comp, mp_parse_node_struct_t *pns) {
int num_nodes = MP_PARSE_NODE_STRUCT_NUM_NODES(pns);
11 years ago
compile_node(comp, pns->nodes[0]);
bool multi = (num_nodes > 3);
uint l_fail = 0;
11 years ago
if (multi) {
l_fail = comp_next_label(comp);
11 years ago
}
for (int i = 1; i + 1 < num_nodes; i += 2) {
compile_node(comp, pns->nodes[i + 1]);
if (i + 2 < num_nodes) {
EMIT(dup_top);
EMIT(rot_three);
}
if (MP_PARSE_NODE_IS_TOKEN(pns->nodes[i])) {
mp_binary_op_t op;
switch (MP_PARSE_NODE_LEAF_ARG(pns->nodes[i])) {
case MP_TOKEN_OP_LESS: op = MP_BINARY_OP_LESS; break;
case MP_TOKEN_OP_MORE: op = MP_BINARY_OP_MORE; break;
case MP_TOKEN_OP_DBL_EQUAL: op = MP_BINARY_OP_EQUAL; break;
case MP_TOKEN_OP_LESS_EQUAL: op = MP_BINARY_OP_LESS_EQUAL; break;
case MP_TOKEN_OP_MORE_EQUAL: op = MP_BINARY_OP_MORE_EQUAL; break;
case MP_TOKEN_OP_NOT_EQUAL: op = MP_BINARY_OP_NOT_EQUAL; break;
case MP_TOKEN_KW_IN: default: op = MP_BINARY_OP_IN; break;
}
EMIT_ARG(binary_op, op);
} else {
assert(MP_PARSE_NODE_IS_STRUCT(pns->nodes[i])); // should be
mp_parse_node_struct_t *pns2 = (mp_parse_node_struct_t*)pns->nodes[i];
int kind = MP_PARSE_NODE_STRUCT_KIND(pns2);
11 years ago
if (kind == PN_comp_op_not_in) {
EMIT_ARG(binary_op, MP_BINARY_OP_NOT_IN);
} else {
assert(kind == PN_comp_op_is); // should be
if (MP_PARSE_NODE_IS_NULL(pns2->nodes[0])) {
EMIT_ARG(binary_op, MP_BINARY_OP_IS);
11 years ago
} else {
EMIT_ARG(binary_op, MP_BINARY_OP_IS_NOT);
11 years ago
}
}
}
if (i + 2 < num_nodes) {
EMIT_ARG(jump_if_or_pop, false, l_fail);
11 years ago
}
}
if (multi) {
uint l_end = comp_next_label(comp);
EMIT_ARG(jump, l_end);
EMIT_ARG(label_assign, l_fail);
EMIT_ARG(adjust_stack_size, 1);
11 years ago
EMIT(rot_two);
EMIT(pop_top);
EMIT_ARG(label_assign, l_end);
11 years ago
}
}
STATIC void compile_star_expr(compiler_t *comp, mp_parse_node_struct_t *pns) {
compile_syntax_error(comp, (mp_parse_node_t)pns, "*x must be assignment target");
11 years ago
}
STATIC void compile_expr(compiler_t *comp, mp_parse_node_struct_t *pns) {
c_binary_op(comp, pns, MP_BINARY_OP_OR);
11 years ago
}
STATIC void compile_xor_expr(compiler_t *comp, mp_parse_node_struct_t *pns) {
c_binary_op(comp, pns, MP_BINARY_OP_XOR);
11 years ago
}
STATIC void compile_and_expr(compiler_t *comp, mp_parse_node_struct_t *pns) {
c_binary_op(comp, pns, MP_BINARY_OP_AND);
11 years ago
}
STATIC void compile_shift_expr(compiler_t *comp, mp_parse_node_struct_t *pns) {
int num_nodes = MP_PARSE_NODE_STRUCT_NUM_NODES(pns);
11 years ago
compile_node(comp, pns->nodes[0]);
for (int i = 1; i + 1 < num_nodes; i += 2) {
compile_node(comp, pns->nodes[i + 1]);
if (MP_PARSE_NODE_IS_TOKEN_KIND(pns->nodes[i], MP_TOKEN_OP_DBL_LESS)) {
EMIT_ARG(binary_op, MP_BINARY_OP_LSHIFT);
11 years ago
} else {
assert(MP_PARSE_NODE_IS_TOKEN_KIND(pns->nodes[i], MP_TOKEN_OP_DBL_MORE)); // should be
EMIT_ARG(binary_op, MP_BINARY_OP_RSHIFT);
11 years ago
}
}
}
STATIC void compile_arith_expr(compiler_t *comp, mp_parse_node_struct_t *pns) {
int num_nodes = MP_PARSE_NODE_STRUCT_NUM_NODES(pns);
11 years ago
compile_node(comp, pns->nodes[0]);
for (int i = 1; i + 1 < num_nodes; i += 2) {
compile_node(comp, pns->nodes[i + 1]);
if (MP_PARSE_NODE_IS_TOKEN_KIND(pns->nodes[i], MP_TOKEN_OP_PLUS)) {
EMIT_ARG(binary_op, MP_BINARY_OP_ADD);
11 years ago
} else {
assert(MP_PARSE_NODE_IS_TOKEN_KIND(pns->nodes[i], MP_TOKEN_OP_MINUS)); // should be
EMIT_ARG(binary_op, MP_BINARY_OP_SUBTRACT);
11 years ago
}
}
}
STATIC void compile_term(compiler_t *comp, mp_parse_node_struct_t *pns) {
int num_nodes = MP_PARSE_NODE_STRUCT_NUM_NODES(pns);
11 years ago
compile_node(comp, pns->nodes[0]);
for (int i = 1; i + 1 < num_nodes; i += 2) {
compile_node(comp, pns->nodes[i + 1]);
if (MP_PARSE_NODE_IS_TOKEN_KIND(pns->nodes[i], MP_TOKEN_OP_STAR)) {
EMIT_ARG(binary_op, MP_BINARY_OP_MULTIPLY);
} else if (MP_PARSE_NODE_IS_TOKEN_KIND(pns->nodes[i], MP_TOKEN_OP_DBL_SLASH)) {
EMIT_ARG(binary_op, MP_BINARY_OP_FLOOR_DIVIDE);
} else if (MP_PARSE_NODE_IS_TOKEN_KIND(pns->nodes[i], MP_TOKEN_OP_SLASH)) {
EMIT_ARG(binary_op, MP_BINARY_OP_TRUE_DIVIDE);
11 years ago
} else {
assert(MP_PARSE_NODE_IS_TOKEN_KIND(pns->nodes[i], MP_TOKEN_OP_PERCENT)); // should be
EMIT_ARG(binary_op, MP_BINARY_OP_MODULO);
11 years ago
}
}
}
STATIC void compile_factor_2(compiler_t *comp, mp_parse_node_struct_t *pns) {
11 years ago
compile_node(comp, pns->nodes[1]);
if (MP_PARSE_NODE_IS_TOKEN_KIND(pns->nodes[0], MP_TOKEN_OP_PLUS)) {
EMIT_ARG(unary_op, MP_UNARY_OP_POSITIVE);
} else if (MP_PARSE_NODE_IS_TOKEN_KIND(pns->nodes[0], MP_TOKEN_OP_MINUS)) {
EMIT_ARG(unary_op, MP_UNARY_OP_NEGATIVE);
11 years ago
} else {
assert(MP_PARSE_NODE_IS_TOKEN_KIND(pns->nodes[0], MP_TOKEN_OP_TILDE)); // should be
EMIT_ARG(unary_op, MP_UNARY_OP_INVERT);
11 years ago
}
}
STATIC void compile_atom_expr_normal(compiler_t *comp, mp_parse_node_struct_t *pns) {
// this is to handle special super() call
comp->func_arg_is_super = MP_PARSE_NODE_IS_ID(pns->nodes[0]) && MP_PARSE_NODE_LEAF_ARG(pns->nodes[0]) == MP_QSTR_super;
compile_generic_all_nodes(comp, pns);
}
STATIC void compile_power(compiler_t *comp, mp_parse_node_struct_t *pns) {
compile_generic_all_nodes(comp, pns); // 2 nodes, arguments of power
EMIT_ARG(binary_op, MP_BINARY_OP_POWER);
}
STATIC void compile_trailer_paren_helper(compiler_t *comp, mp_parse_node_t pn_arglist, bool is_method_call, int n_positional_extra) {
11 years ago
// function to call is on top of stack
// this is to handle special super() call
if (MP_PARSE_NODE_IS_NULL(pn_arglist) && comp->func_arg_is_super && comp->scope_cur->kind == SCOPE_FUNCTION) {
compile_load_id(comp, MP_QSTR___class__);
// look for first argument to function (assumes it's "self")
for (int i = 0; i < comp->scope_cur->id_info_len; i++) {
if (comp->scope_cur->id_info[i].flags & ID_FLAG_IS_PARAM) {
// first argument found; load it and call super
EMIT_LOAD_FAST(MP_QSTR_, comp->scope_cur->id_info[i].local_num);
EMIT_ARG(call_function, 2, 0, 0);
return;
}
}
compile_syntax_error(comp, MP_PARSE_NODE_NULL, "super() call cannot find self"); // really a TypeError
return;
}
// get the list of arguments
mp_parse_node_t *args;
int n_args = mp_parse_node_extract_list(&pn_arglist, PN_arglist, &args);
// compile the arguments
// Rather than calling compile_node on the list, we go through the list of args
// explicitly here so that we can count the number of arguments and give sensible
// error messages.
int n_positional = n_positional_extra;
uint n_keyword = 0;
uint star_flags = 0;
mp_parse_node_struct_t *star_args_node = NULL, *dblstar_args_node = NULL;
for (int i = 0; i < n_args; i++) {
if (MP_PARSE_NODE_IS_STRUCT(args[i])) {
mp_parse_node_struct_t *pns_arg = (mp_parse_node_struct_t*)args[i];
if (MP_PARSE_NODE_STRUCT_KIND(pns_arg) == PN_arglist_star) {
if (star_flags & MP_EMIT_STAR_FLAG_SINGLE) {
compile_syntax_error(comp, (mp_parse_node_t)pns_arg, "can't have multiple *x");
return;
}
star_flags |= MP_EMIT_STAR_FLAG_SINGLE;
star_args_node = pns_arg;
} else if (MP_PARSE_NODE_STRUCT_KIND(pns_arg) == PN_arglist_dbl_star) {
if (star_flags & MP_EMIT_STAR_FLAG_DOUBLE) {
compile_syntax_error(comp, (mp_parse_node_t)pns_arg, "can't have multiple **x");
return;
}
star_flags |= MP_EMIT_STAR_FLAG_DOUBLE;
dblstar_args_node = pns_arg;
} else if (MP_PARSE_NODE_STRUCT_KIND(pns_arg) == PN_argument) {
if (!MP_PARSE_NODE_IS_STRUCT_KIND(pns_arg->nodes[1], PN_comp_for)) {
if (!MP_PARSE_NODE_IS_ID(pns_arg->nodes[0])) {
compile_syntax_error(comp, (mp_parse_node_t)pns_arg, "LHS of keyword arg must be an id");
return;
}
EMIT_ARG(load_const_str, MP_PARSE_NODE_LEAF_ARG(pns_arg->nodes[0]));
compile_node(comp, pns_arg->nodes[1]);
n_keyword += 1;
} else {
compile_comprehension(comp, pns_arg, SCOPE_GEN_EXPR);
n_positional++;
}
} else {
goto normal_argument;
}
} else {
normal_argument:
if (n_keyword > 0) {
compile_syntax_error(comp, args[i], "non-keyword arg after keyword arg");
return;
}
compile_node(comp, args[i]);
n_positional++;
}
11 years ago
}
// compile the star/double-star arguments if we had them
// if we had one but not the other then we load "null" as a place holder
if (star_flags != 0) {
if (star_args_node == NULL) {
EMIT(load_null);
} else {
compile_node(comp, star_args_node->nodes[0]);
}
if (dblstar_args_node == NULL) {
EMIT(load_null);
} else {
compile_node(comp, dblstar_args_node->nodes[0]);
}
}
// emit the function/method call
11 years ago
if (is_method_call) {
EMIT_ARG(call_method, n_positional, n_keyword, star_flags);
11 years ago
} else {
EMIT_ARG(call_function, n_positional, n_keyword, star_flags);
11 years ago
}
}
STATIC void compile_atom_expr_trailers(compiler_t *comp, mp_parse_node_struct_t *pns) {
int num_nodes = MP_PARSE_NODE_STRUCT_NUM_NODES(pns);
11 years ago
for (int i = 0; i < num_nodes; i++) {
if (i + 1 < num_nodes && MP_PARSE_NODE_IS_STRUCT_KIND(pns->nodes[i], PN_trailer_period) && MP_PARSE_NODE_IS_STRUCT_KIND(pns->nodes[i + 1], PN_trailer_paren)) {
11 years ago
// optimisation for method calls a.f(...), following PyPy
mp_parse_node_struct_t *pns_period = (mp_parse_node_struct_t*)pns->nodes[i];
mp_parse_node_struct_t *pns_paren = (mp_parse_node_struct_t*)pns->nodes[i + 1];
EMIT_ARG(load_method, MP_PARSE_NODE_LEAF_ARG(pns_period->nodes[0])); // get the method
compile_trailer_paren_helper(comp, pns_paren->nodes[0], true, 0);
11 years ago
i += 1;
} else {
compile_node(comp, pns->nodes[i]);
}
comp->func_arg_is_super = false;
11 years ago
}
}
STATIC void compile_atom_string(compiler_t *comp, mp_parse_node_struct_t *pns) {
11 years ago
// a list of strings
// check type of list (string or bytes) and count total number of bytes
int n = MP_PARSE_NODE_STRUCT_NUM_NODES(pns);
size_t n_bytes = 0;
int string_kind = MP_PARSE_NODE_NULL;
11 years ago
for (int i = 0; i < n; i++) {
int pn_kind;
if (MP_PARSE_NODE_IS_LEAF(pns->nodes[i])) {
pn_kind = MP_PARSE_NODE_LEAF_KIND(pns->nodes[i]);
assert(pn_kind == MP_PARSE_NODE_STRING || pn_kind == MP_PARSE_NODE_BYTES);
n_bytes += qstr_len(MP_PARSE_NODE_LEAF_ARG(pns->nodes[i]));
} else {
assert(MP_PARSE_NODE_IS_STRUCT(pns->nodes[i]));
mp_parse_node_struct_t *pns_string = (mp_parse_node_struct_t*)pns->nodes[i];
if (MP_PARSE_NODE_STRUCT_KIND(pns_string) == PN_string) {
pn_kind = MP_PARSE_NODE_STRING;
} else {
assert(MP_PARSE_NODE_STRUCT_KIND(pns_string) == PN_bytes);
pn_kind = MP_PARSE_NODE_BYTES;
}
n_bytes += pns_string->nodes[1];
}
if (i == 0) {
string_kind = pn_kind;
} else if (pn_kind != string_kind) {
compile_syntax_error(comp, (mp_parse_node_t)pns, "cannot mix bytes and nonbytes literals");
return;
}
11 years ago
}
// if we are not in the last pass, just load a dummy object
if (comp->pass != MP_PASS_EMIT) {
EMIT_ARG(load_const_obj, mp_const_none);
return;
}
// concatenate string/bytes
vstr_t vstr;
vstr_init_len(&vstr, n_bytes);
byte *s_dest = (byte*)vstr.buf;
for (int i = 0; i < n; i++) {
if (MP_PARSE_NODE_IS_LEAF(pns->nodes[i])) {
size_t s_len;
const byte *s = qstr_data(MP_PARSE_NODE_LEAF_ARG(pns->nodes[i]), &s_len);
memcpy(s_dest, s, s_len);
s_dest += s_len;
} else {
mp_parse_node_struct_t *pns_string = (mp_parse_node_struct_t*)pns->nodes[i];
memcpy(s_dest, (const char*)pns_string->nodes[0], pns_string->nodes[1]);
s_dest += pns_string->nodes[1];
}
}
// load the object
EMIT_ARG(load_const_obj, mp_obj_new_str_from_vstr(string_kind == MP_PARSE_NODE_STRING ? &mp_type_str : &mp_type_bytes, &vstr));
11 years ago
}
// pns needs to have 2 nodes, first is lhs of comprehension, second is PN_comp_for node
STATIC void compile_comprehension(compiler_t *comp, mp_parse_node_struct_t *pns, scope_kind_t kind) {
assert(MP_PARSE_NODE_STRUCT_NUM_NODES(pns) == 2);
assert(MP_PARSE_NODE_IS_STRUCT_KIND(pns->nodes[1], PN_comp_for));
mp_parse_node_struct_t *pns_comp_for = (mp_parse_node_struct_t*)pns->nodes[1];
11 years ago
if (comp->pass == MP_PASS_SCOPE) {
11 years ago
// create a new scope for this comprehension
scope_t *s = scope_new_and_link(comp, kind, (mp_parse_node_t)pns, comp->scope_cur->emit_options);
11 years ago
// store the comprehension scope so the compiling function (this one) can use it at each pass
pns_comp_for->nodes[3] = (mp_parse_node_t)s;
11 years ago
}
// get the scope for this comprehension
scope_t *this_scope = (scope_t*)pns_comp_for->nodes[3];
// compile the comprehension
close_over_variables_etc(comp, this_scope, 0, 0);
compile_node(comp, pns_comp_for->nodes[1]); // source of the iterator
EMIT(get_iter);
EMIT_ARG(call_function, 1, 0, 0);
11 years ago
}
STATIC void compile_atom_paren(compiler_t *comp, mp_parse_node_struct_t *pns) {
if (MP_PARSE_NODE_IS_NULL(pns->nodes[0])) {
11 years ago
// an empty tuple
c_tuple(comp, MP_PARSE_NODE_NULL, NULL);
} else {
assert(MP_PARSE_NODE_IS_STRUCT_KIND(pns->nodes[0], PN_testlist_comp));
pns = (mp_parse_node_struct_t*)pns->nodes[0];
assert(!MP_PARSE_NODE_IS_NULL(pns->nodes[1]));
if (MP_PARSE_NODE_IS_STRUCT(pns->nodes[1])) {
mp_parse_node_struct_t *pns2 = (mp_parse_node_struct_t*)pns->nodes[1];
if (MP_PARSE_NODE_STRUCT_KIND(pns2) == PN_testlist_comp_3b) {
11 years ago
// tuple of one item, with trailing comma
assert(MP_PARSE_NODE_IS_NULL(pns2->nodes[0]));
11 years ago
c_tuple(comp, pns->nodes[0], NULL);
} else if (MP_PARSE_NODE_STRUCT_KIND(pns2) == PN_testlist_comp_3c) {
11 years ago
// tuple of many items
c_tuple(comp, pns->nodes[0], pns2);
} else if (MP_PARSE_NODE_STRUCT_KIND(pns2) == PN_comp_for) {
11 years ago
// generator expression
compile_comprehension(comp, pns, SCOPE_GEN_EXPR);
} else {
// tuple with 2 items
goto tuple_with_2_items;
}
} else {
// tuple with 2 items
tuple_with_2_items:
c_tuple(comp, MP_PARSE_NODE_NULL, pns);
11 years ago
}
}
}
STATIC void compile_atom_bracket(compiler_t *comp, mp_parse_node_struct_t *pns) {
if (MP_PARSE_NODE_IS_NULL(pns->nodes[0])) {
11 years ago
// empty list
EMIT_ARG(build_list, 0);
} else if (MP_PARSE_NODE_IS_STRUCT_KIND(pns->nodes[0], PN_testlist_comp)) {
mp_parse_node_struct_t *pns2 = (mp_parse_node_struct_t*)pns->nodes[0];
if (MP_PARSE_NODE_IS_STRUCT(pns2->nodes[1])) {
mp_parse_node_struct_t *pns3 = (mp_parse_node_struct_t*)pns2->nodes[1];
if (MP_PARSE_NODE_STRUCT_KIND(pns3) == PN_testlist_comp_3b) {
11 years ago
// list of one item, with trailing comma
assert(MP_PARSE_NODE_IS_NULL(pns3->nodes[0]));
11 years ago
compile_node(comp, pns2->nodes[0]);
EMIT_ARG(build_list, 1);
} else if (MP_PARSE_NODE_STRUCT_KIND(pns3) == PN_testlist_comp_3c) {
11 years ago
// list of many items
compile_node(comp, pns2->nodes[0]);
compile_generic_all_nodes(comp, pns3);
EMIT_ARG(build_list, 1 + MP_PARSE_NODE_STRUCT_NUM_NODES(pns3));
} else if (MP_PARSE_NODE_STRUCT_KIND(pns3) == PN_comp_for) {
11 years ago
// list comprehension
compile_comprehension(comp, pns2, SCOPE_LIST_COMP);
} else {
// list with 2 items
goto list_with_2_items;
}
} else {
// list with 2 items
list_with_2_items:
compile_node(comp, pns2->nodes[0]);
compile_node(comp, pns2->nodes[1]);
EMIT_ARG(build_list, 2);
11 years ago
}
} else {
// list with 1 item
compile_node(comp, pns->nodes[0]);
EMIT_ARG(build_list, 1);
11 years ago
}
}
STATIC void compile_atom_brace(compiler_t *comp, mp_parse_node_struct_t *pns) {
mp_parse_node_t pn = pns->nodes[0];
if (MP_PARSE_NODE_IS_NULL(pn)) {
11 years ago
// empty dict
EMIT_ARG(build_map, 0);
} else if (MP_PARSE_NODE_IS_STRUCT(pn)) {
pns = (mp_parse_node_struct_t*)pn;
if (MP_PARSE_NODE_STRUCT_KIND(pns) == PN_dictorsetmaker_item) {
11 years ago
// dict with one element
EMIT_ARG(build_map, 1);
11 years ago
compile_node(comp, pn);
EMIT(store_map);
} else if (MP_PARSE_NODE_STRUCT_KIND(pns) == PN_dictorsetmaker) {
assert(MP_PARSE_NODE_IS_STRUCT(pns->nodes[1])); // should succeed
mp_parse_node_struct_t *pns1 = (mp_parse_node_struct_t*)pns->nodes[1];
if (MP_PARSE_NODE_STRUCT_KIND(pns1) == PN_dictorsetmaker_list) {
11 years ago
// dict/set with multiple elements
// get tail elements (2nd, 3rd, ...)
mp_parse_node_t *nodes;
int n = mp_parse_node_extract_list(&pns1->nodes[0], PN_dictorsetmaker_list2, &nodes);
11 years ago
// first element sets whether it's a dict or set
bool is_dict;
if (!MICROPY_PY_BUILTINS_SET || MP_PARSE_NODE_IS_STRUCT_KIND(pns->nodes[0], PN_dictorsetmaker_item)) {
11 years ago
// a dictionary
EMIT_ARG(build_map, 1 + n);
11 years ago
compile_node(comp, pns->nodes[0]);
EMIT(store_map);
is_dict = true;
} else {
// a set
compile_node(comp, pns->nodes[0]); // 1st value of set
is_dict = false;
}
// process rest of elements
for (int i = 0; i < n; i++) {
mp_parse_node_t pn_i = nodes[i];
bool is_key_value = MP_PARSE_NODE_IS_STRUCT_KIND(pn_i, PN_dictorsetmaker_item);
compile_node(comp, pn_i);
11 years ago
if (is_dict) {
if (!is_key_value) {
compile_syntax_error(comp, (mp_parse_node_t)pns, "expecting key:value for dictionary");
11 years ago
return;
}
EMIT(store_map);
} else {
if (is_key_value) {
compile_syntax_error(comp, (mp_parse_node_t)pns, "expecting just a value for set");
11 years ago
return;
}
}
}
#if MICROPY_PY_BUILTINS_SET
11 years ago
// if it's a set, build it
if (!is_dict) {
EMIT_ARG(build_set, 1 + n);
11 years ago
}
#endif
} else {
assert(MP_PARSE_NODE_STRUCT_KIND(pns1) == PN_comp_for); // should be
11 years ago
// dict/set comprehension
if (!MICROPY_PY_BUILTINS_SET || MP_PARSE_NODE_IS_STRUCT_KIND(pns->nodes[0], PN_dictorsetmaker_item)) {
11 years ago
// a dictionary comprehension
compile_comprehension(comp, pns, SCOPE_DICT_COMP);
} else {
// a set comprehension
compile_comprehension(comp, pns, SCOPE_SET_COMP);
}
}
} else {
// set with one element
goto set_with_one_element;
}
} else {
// set with one element
set_with_one_element:
#if MICROPY_PY_BUILTINS_SET
11 years ago
compile_node(comp, pn);
EMIT_ARG(build_set, 1);
#else
assert(0);
#endif
11 years ago
}
}
STATIC void compile_trailer_paren(compiler_t *comp, mp_parse_node_struct_t *pns) {
compile_trailer_paren_helper(comp, pns->nodes[0], false, 0);
11 years ago
}
STATIC void compile_trailer_bracket(compiler_t *comp, mp_parse_node_struct_t *pns) {
11 years ago
// object who's index we want is on top of stack
compile_node(comp, pns->nodes[0]); // the index
EMIT(load_subscr);
11 years ago
}
STATIC void compile_trailer_period(compiler_t *comp, mp_parse_node_struct_t *pns) {
11 years ago
// object who's attribute we want is on top of stack
EMIT_ARG(load_attr, MP_PARSE_NODE_LEAF_ARG(pns->nodes[0])); // attribute to get
11 years ago
}
#if MICROPY_PY_BUILTINS_SLICE
STATIC void compile_subscript_3_helper(compiler_t *comp, mp_parse_node_struct_t *pns) {
assert(MP_PARSE_NODE_STRUCT_KIND(pns) == PN_subscript_3); // should always be
mp_parse_node_t pn = pns->nodes[0];
if (MP_PARSE_NODE_IS_NULL(pn)) {
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// [?:]
EMIT_ARG(load_const_tok, MP_TOKEN_KW_NONE);
EMIT_ARG(build_slice, 2);
} else if (MP_PARSE_NODE_IS_STRUCT(pn)) {
pns = (mp_parse_node_struct_t*)pn;
if (MP_PARSE_NODE_STRUCT_KIND(pns) == PN_subscript_3c) {
EMIT_ARG(load_const_tok, MP_TOKEN_KW_NONE);
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pn = pns->nodes[0];
if (MP_PARSE_NODE_IS_NULL(pn)) {
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// [?::]
EMIT_ARG(build_slice, 2);
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} else {
// [?::x]
compile_node(comp, pn);
EMIT_ARG(build_slice, 3);
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}
} else if (MP_PARSE_NODE_STRUCT_KIND(pns) == PN_subscript_3d) {
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compile_node(comp, pns->nodes[0]);
assert(MP_PARSE_NODE_IS_STRUCT(pns->nodes[1])); // should always be
pns = (mp_parse_node_struct_t*)pns->nodes[1];
assert(MP_PARSE_NODE_STRUCT_KIND(pns) == PN_sliceop); // should always be
if (MP_PARSE_NODE_IS_NULL(pns->nodes[0])) {
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// [?:x:]
EMIT_ARG(build_slice, 2);
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} else {
// [?:x:x]
compile_node(comp, pns->nodes[0]);
EMIT_ARG(build_slice, 3);
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}
} else {
// [?:x]
compile_node(comp, pn);
EMIT_ARG(build_slice, 2);
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}
} else {
// [?:x]
compile_node(comp, pn);
EMIT_ARG(build_slice, 2);
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}
}
STATIC void compile_subscript_2(compiler_t *comp, mp_parse_node_struct_t *pns) {
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compile_node(comp, pns->nodes[0]); // start of slice
assert(MP_PARSE_NODE_IS_STRUCT(pns->nodes[1])); // should always be
compile_subscript_3_helper(comp, (mp_parse_node_struct_t*)pns->nodes[1]);
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}
STATIC void compile_subscript_3(compiler_t *comp, mp_parse_node_struct_t *pns) {
EMIT_ARG(load_const_tok, MP_TOKEN_KW_NONE);
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compile_subscript_3_helper(comp, pns);
}
#endif // MICROPY_PY_BUILTINS_SLICE
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STATIC void compile_dictorsetmaker_item(compiler_t *comp, mp_parse_node_struct_t *pns) {
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// if this is called then we are compiling a dict key:value pair
compile_node(comp, pns->nodes[1]); // value
compile_node(comp, pns->nodes[0]); // key
}
STATIC void compile_classdef(compiler_t *comp, mp_parse_node_struct_t *pns) {
qstr cname = compile_classdef_helper(comp, pns, comp->scope_cur->emit_options);
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// store class object into class name
compile_store_id(comp, cname);
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}
STATIC void compile_yield_expr(compiler_t *comp, mp_parse_node_struct_t *pns) {
if (comp->scope_cur->kind != SCOPE_FUNCTION && comp->scope_cur->kind != SCOPE_LAMBDA) {
compile_syntax_error(comp, (mp_parse_node_t)pns, "'yield' outside function");
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return;
}
if (MP_PARSE_NODE_IS_NULL(pns->nodes[0])) {
EMIT_ARG(load_const_tok, MP_TOKEN_KW_NONE);
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EMIT(yield_value);
} else if (MP_PARSE_NODE_IS_STRUCT_KIND(pns->nodes[0], PN_yield_arg_from)) {
pns = (mp_parse_node_struct_t*)pns->nodes[0];
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compile_node(comp, pns->nodes[0]);
compile_yield_from(comp);
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} else {
compile_node(comp, pns->nodes[0]);
EMIT(yield_value);
}
}
#if MICROPY_PY_ASYNC_AWAIT
STATIC void compile_atom_expr_await(compiler_t *comp, mp_parse_node_struct_t *pns) {
if (comp->scope_cur->kind != SCOPE_FUNCTION && comp->scope_cur->kind != SCOPE_LAMBDA) {
compile_syntax_error(comp, (mp_parse_node_t)pns, "'await' outside function");
return;
}
compile_atom_expr_normal(comp, pns);
compile_yield_from(comp);
}
#endif
STATIC void compile_string(compiler_t *comp, mp_parse_node_struct_t *pns) {
// only create and load the actual str object on the last pass
if (comp->pass != MP_PASS_EMIT) {
EMIT_ARG(load_const_obj, mp_const_none);
} else {
EMIT_ARG(load_const_obj, mp_obj_new_str((const char*)pns->nodes[0], pns->nodes[1], false));
}
}
STATIC void compile_bytes(compiler_t *comp, mp_parse_node_struct_t *pns) {
// only create and load the actual bytes object on the last pass
if (comp->pass != MP_PASS_EMIT) {
EMIT_ARG(load_const_obj, mp_const_none);
} else {
EMIT_ARG(load_const_obj, mp_obj_new_bytes((const byte*)pns->nodes[0], pns->nodes[1]));
}
}
STATIC void compile_const_object(compiler_t *comp, mp_parse_node_struct_t *pns) {
#if MICROPY_OBJ_REPR == MICROPY_OBJ_REPR_D
// nodes are 32-bit pointers, but need to extract 64-bit object
EMIT_ARG(load_const_obj, (uint64_t)pns->nodes[0] | ((uint64_t)pns->nodes[1] << 32));
#else
EMIT_ARG(load_const_obj, (mp_obj_t)pns->nodes[0]);
#endif
}
typedef void (*compile_function_t)(compiler_t*, mp_parse_node_struct_t*);
STATIC const compile_function_t compile_function[] = {
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#define nc NULL
#define c(f) compile_##f
#define DEF_RULE(rule, comp, kind, ...) comp,
#include "py/grammar.h"
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#undef nc
#undef c
#undef DEF_RULE
NULL,
compile_string,
compile_bytes,
compile_const_object,
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};
STATIC void compile_node(compiler_t *comp, mp_parse_node_t pn) {
if (MP_PARSE_NODE_IS_NULL(pn)) {
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// pass
} else if (MP_PARSE_NODE_IS_SMALL_INT(pn)) {
mp_int_t arg = MP_PARSE_NODE_LEAF_SMALL_INT(pn);
#if MICROPY_DYNAMIC_COMPILER
mp_uint_t sign_mask = -(1 << (mp_dynamic_compiler.small_int_bits - 1));
if ((arg & sign_mask) == 0 || (arg & sign_mask) == sign_mask) {
// integer fits in target runtime's small-int
EMIT_ARG(load_const_small_int, arg);
} else {
// integer doesn't fit, so create a multi-precision int object
// (but only create the actual object on the last pass)
if (comp->pass != MP_PASS_EMIT) {
EMIT_ARG(load_const_obj, mp_const_none);
} else {
EMIT_ARG(load_const_obj, mp_obj_new_int_from_ll(arg));
}
}
#else
EMIT_ARG(load_const_small_int, arg);
#endif
} else if (MP_PARSE_NODE_IS_LEAF(pn)) {
uintptr_t arg = MP_PARSE_NODE_LEAF_ARG(pn);
switch (MP_PARSE_NODE_LEAF_KIND(pn)) {
case MP_PARSE_NODE_ID: compile_load_id(comp, arg); break;
case MP_PARSE_NODE_STRING: EMIT_ARG(load_const_str, arg); break;
case MP_PARSE_NODE_BYTES:
// only create and load the actual bytes object on the last pass
if (comp->pass != MP_PASS_EMIT) {
EMIT_ARG(load_const_obj, mp_const_none);
} else {
size_t len;
const byte *data = qstr_data(arg, &len);
EMIT_ARG(load_const_obj, mp_obj_new_bytes(data, len));
}
break;
case MP_PARSE_NODE_TOKEN: default:
if (arg == MP_TOKEN_NEWLINE) {
// this can occur when file_input lets through a NEWLINE (eg if file starts with a newline)
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// or when single_input lets through a NEWLINE (user enters a blank line)
// do nothing
} else {
EMIT_ARG(load_const_tok, arg);
}
break;
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}
} else {
mp_parse_node_struct_t *pns = (mp_parse_node_struct_t*)pn;
EMIT_ARG(set_source_line, pns->source_line);
compile_function_t f = compile_function[MP_PARSE_NODE_STRUCT_KIND(pns)];
if (f == NULL) {
#if MICROPY_DEBUG_PRINTERS
printf("node %u cannot be compiled\n", (uint)MP_PARSE_NODE_STRUCT_KIND(pns));
mp_parse_node_print(pn, 0);
#endif
compile_syntax_error(comp, pn, "internal compiler error");
} else {
f(comp, pns);
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}
}
}
STATIC void compile_scope_func_lambda_param(compiler_t *comp, mp_parse_node_t pn, pn_kind_t pn_name, pn_kind_t pn_star, pn_kind_t pn_dbl_star) {
// check that **kw is last
if ((comp->scope_cur->scope_flags & MP_SCOPE_FLAG_VARKEYWORDS) != 0) {
compile_syntax_error(comp, pn, "invalid syntax");
return;
}
qstr param_name = MP_QSTR_NULL;
uint param_flag = ID_FLAG_IS_PARAM;
if (MP_PARSE_NODE_IS_ID(pn)) {
param_name = MP_PARSE_NODE_LEAF_ARG(pn);
if (comp->have_star) {
// comes after a star, so counts as a keyword-only parameter
comp->scope_cur->num_kwonly_args += 1;
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} else {
// comes before a star, so counts as a positional parameter
comp->scope_cur->num_pos_args += 1;
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}
} else {
assert(MP_PARSE_NODE_IS_STRUCT(pn));
mp_parse_node_struct_t *pns = (mp_parse_node_struct_t*)pn;
if (MP_PARSE_NODE_STRUCT_KIND(pns) == pn_name) {
param_name = MP_PARSE_NODE_LEAF_ARG(pns->nodes[0]);
if (comp->have_star) {
// comes after a star, so counts as a keyword-only parameter
comp->scope_cur->num_kwonly_args += 1;
} else {
// comes before a star, so counts as a positional parameter
comp->scope_cur->num_pos_args += 1;
}
} else if (MP_PARSE_NODE_STRUCT_KIND(pns) == pn_star) {
if (comp->have_star) {
// more than one star
compile_syntax_error(comp, pn, "invalid syntax");
return;
}
comp->have_star = true;
param_flag = ID_FLAG_IS_PARAM | ID_FLAG_IS_STAR_PARAM;
if (MP_PARSE_NODE_IS_NULL(pns->nodes[0])) {
// bare star
// TODO see http://www.python.org/dev/peps/pep-3102/
//assert(comp->scope_cur->num_dict_params == 0);
} else if (MP_PARSE_NODE_IS_ID(pns->nodes[0])) {
// named star
comp->scope_cur->scope_flags |= MP_SCOPE_FLAG_VARARGS;
param_name = MP_PARSE_NODE_LEAF_ARG(pns->nodes[0]);
} else {
assert(MP_PARSE_NODE_IS_STRUCT_KIND(pns->nodes[0], PN_tfpdef)); // should be
// named star with possible annotation
comp->scope_cur->scope_flags |= MP_SCOPE_FLAG_VARARGS;
pns = (mp_parse_node_struct_t*)pns->nodes[0];
param_name = MP_PARSE_NODE_LEAF_ARG(pns->nodes[0]);
}
} else {
assert(MP_PARSE_NODE_STRUCT_KIND(pns) == pn_dbl_star); // should be
param_name = MP_PARSE_NODE_LEAF_ARG(pns->nodes[0]);
param_flag = ID_FLAG_IS_PARAM | ID_FLAG_IS_DBL_STAR_PARAM;
comp->scope_cur->scope_flags |= MP_SCOPE_FLAG_VARKEYWORDS;
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}
}
if (param_name != MP_QSTR_NULL) {
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bool added;
id_info_t *id_info = scope_find_or_add_id(comp->scope_cur, param_name, &added);
if (!added) {
compile_syntax_error(comp, pn, "name reused for argument");
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return;
}
id_info->kind = ID_INFO_KIND_LOCAL;
id_info->flags = param_flag;
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}
}
STATIC void compile_scope_func_param(compiler_t *comp, mp_parse_node_t pn) {
compile_scope_func_lambda_param(comp, pn, PN_typedargslist_name, PN_typedargslist_star, PN_typedargslist_dbl_star);
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}
STATIC void compile_scope_lambda_param(compiler_t *comp, mp_parse_node_t pn) {
compile_scope_func_lambda_param(comp, pn, PN_varargslist_name, PN_varargslist_star, PN_varargslist_dbl_star);
}
#if MICROPY_EMIT_NATIVE
STATIC void compile_scope_func_annotations(compiler_t *comp, mp_parse_node_t pn) {
if (!MP_PARSE_NODE_IS_STRUCT(pn)) {
// no annotation
return;
}
mp_parse_node_struct_t *pns = (mp_parse_node_struct_t*)pn;
if (MP_PARSE_NODE_STRUCT_KIND(pns) == PN_typedargslist_name) {
// named parameter with possible annotation
// fallthrough
} else if (MP_PARSE_NODE_STRUCT_KIND(pns) == PN_typedargslist_star) {
if (MP_PARSE_NODE_IS_STRUCT_KIND(pns->nodes[0], PN_tfpdef)) {
// named star with possible annotation
pns = (mp_parse_node_struct_t*)pns->nodes[0];
// fallthrough
} else {
// no annotation
return;
}
} else if (MP_PARSE_NODE_STRUCT_KIND(pns) == PN_typedargslist_dbl_star) {
// double star with possible annotation
// fallthrough
} else {
// no annotation
return;
}
mp_parse_node_t pn_annotation = pns->nodes[1];
if (!MP_PARSE_NODE_IS_NULL(pn_annotation)) {
qstr param_name = MP_PARSE_NODE_LEAF_ARG(pns->nodes[0]);
id_info_t *id_info = scope_find(comp->scope_cur, param_name);
assert(id_info != NULL);
if (MP_PARSE_NODE_IS_ID(pn_annotation)) {
qstr arg_type = MP_PARSE_NODE_LEAF_ARG(pn_annotation);
EMIT_ARG(set_native_type, MP_EMIT_NATIVE_TYPE_ARG, id_info->local_num, arg_type);
} else {
compile_syntax_error(comp, pn_annotation, "parameter annotation must be an identifier");
}
}
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}
#endif // MICROPY_EMIT_NATIVE
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STATIC void compile_scope_comp_iter(compiler_t *comp, mp_parse_node_struct_t *pns_comp_for, mp_parse_node_t pn_inner_expr, int for_depth) {
uint l_top = comp_next_label(comp);
uint l_end = comp_next_label(comp);
EMIT_ARG(label_assign, l_top);
EMIT_ARG(for_iter, l_end);
c_assign(comp, pns_comp_for->nodes[0], ASSIGN_STORE);
mp_parse_node_t pn_iter = pns_comp_for->nodes[2];
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tail_recursion:
if (MP_PARSE_NODE_IS_NULL(pn_iter)) {
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// no more nested if/for; compile inner expression
compile_node(comp, pn_inner_expr);
if (comp->scope_cur->kind == SCOPE_GEN_EXPR) {
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EMIT(yield_value);
EMIT(pop_top);
} else {
EMIT_ARG(store_comp, comp->scope_cur->kind, for_depth + 2);
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}
} else if (MP_PARSE_NODE_IS_STRUCT_KIND(pn_iter, PN_comp_if)) {
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// if condition
mp_parse_node_struct_t *pns_comp_if = (mp_parse_node_struct_t*)pn_iter;
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c_if_cond(comp, pns_comp_if->nodes[0], false, l_top);
pn_iter = pns_comp_if->nodes[1];
goto tail_recursion;
} else {
assert(MP_PARSE_NODE_IS_STRUCT_KIND(pn_iter, PN_comp_for)); // should be
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// for loop
mp_parse_node_struct_t *pns_comp_for2 = (mp_parse_node_struct_t*)pn_iter;
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compile_node(comp, pns_comp_for2->nodes[1]);
EMIT(get_iter);
compile_scope_comp_iter(comp, pns_comp_for2, pn_inner_expr, for_depth + 1);
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}
EMIT_ARG(jump, l_top);
EMIT_ARG(label_assign, l_end);
EMIT(for_iter_end);
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}
STATIC void check_for_doc_string(compiler_t *comp, mp_parse_node_t pn) {
unix-cpy: Remove unix-cpy. It&#39;s no longer needed. unix-cpy was originally written to get semantic equivalent with CPython without writing functional tests. When writing the initial implementation of uPy it was a long way between lexer and functional tests, so the half-way test was to make sure that the bytecode was correct. The idea was that if the uPy bytecode matched CPython 1-1 then uPy would be proper Python if the bytecodes acted correctly. And having matching bytecode meant that it was less likely to miss some deep subtlety in the Python semantics that would require an architectural change later on. But that is all history and it no longer makes sense to retain the ability to output CPython bytecode, because: 1. It outputs CPython 3.3 compatible bytecode. CPython&#39;s bytecode changes from version to version, and seems to have changed quite a bit in 3.5. There&#39;s no point in changing the bytecode output to match CPython anymore. 2. uPy and CPy do different optimisations to the bytecode which makes it harder to match. 3. The bytecode tests are not run. They were never part of Travis and are not run locally anymore. 4. The EMIT_CPYTHON option needs a lot of extra source code which adds heaps of noise, especially in compile.c. 5. Now that there is an extensive test suite (which tests functionality) there is no need to match the bytecode. Some very subtle behaviour is tested with the test suite and passing these tests is a much better way to stay Python-language compliant, rather than trying to match CPy bytecode.
9 years ago
#if MICROPY_ENABLE_DOC_STRING
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// see http://www.python.org/dev/peps/pep-0257/
// look for the first statement
if (MP_PARSE_NODE_IS_STRUCT_KIND(pn, PN_expr_stmt)) {
// a statement; fall through
} else if (MP_PARSE_NODE_IS_STRUCT_KIND(pn, PN_file_input_2)) {
// file input; find the first non-newline node
mp_parse_node_struct_t *pns = (mp_parse_node_struct_t*)pn;
int num_nodes = MP_PARSE_NODE_STRUCT_NUM_NODES(pns);
for (int i = 0; i < num_nodes; i++) {
pn = pns->nodes[i];
if (!(MP_PARSE_NODE_IS_LEAF(pn) && MP_PARSE_NODE_LEAF_KIND(pn) == MP_PARSE_NODE_TOKEN && MP_PARSE_NODE_LEAF_ARG(pn) == MP_TOKEN_NEWLINE)) {
// not a newline, so this is the first statement; finish search
break;
}
}
// if we didn't find a non-newline then it's okay to fall through; pn will be a newline and so doc-string test below will fail gracefully
} else if (MP_PARSE_NODE_IS_STRUCT_KIND(pn, PN_suite_block_stmts)) {
// a list of statements; get the first one
pn = ((mp_parse_node_struct_t*)pn)->nodes[0];
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} else {
return;
}
// check the first statement for a doc string
if (MP_PARSE_NODE_IS_STRUCT_KIND(pn, PN_expr_stmt)) {
mp_parse_node_struct_t *pns = (mp_parse_node_struct_t*)pn;
if ((MP_PARSE_NODE_IS_LEAF(pns->nodes[0])
&& MP_PARSE_NODE_LEAF_KIND(pns->nodes[0]) == MP_PARSE_NODE_STRING)
|| MP_PARSE_NODE_IS_STRUCT_KIND(pns->nodes[0], PN_string)) {
// compile the doc string
compile_node(comp, pns->nodes[0]);
// store the doc string
compile_store_id(comp, MP_QSTR___doc__);
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}
}
#else
(void)comp;
(void)pn;
#endif
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}
STATIC void compile_scope(compiler_t *comp, scope_t *scope, pass_kind_t pass) {
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comp->pass = pass;
comp->scope_cur = scope;
comp->next_label = 1;
EMIT_ARG(start_pass, pass, scope);
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if (comp->pass == MP_PASS_SCOPE) {
// reset maximum stack sizes in scope
// they will be computed in this first pass
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scope->stack_size = 0;
scope->exc_stack_size = 0;
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}
// compile
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if (MP_PARSE_NODE_IS_STRUCT_KIND(scope->pn, PN_eval_input)) {
assert(scope->kind == SCOPE_MODULE);
mp_parse_node_struct_t *pns = (mp_parse_node_struct_t*)scope->pn;
compile_node(comp, pns->nodes[0]); // compile the expression
EMIT(return_value);
} else if (scope->kind == SCOPE_MODULE) {
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if (!comp->is_repl) {
check_for_doc_string(comp, scope->pn);
}
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compile_node(comp, scope->pn);
EMIT_ARG(load_const_tok, MP_TOKEN_KW_NONE);
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EMIT(return_value);
} else if (scope->kind == SCOPE_FUNCTION) {
assert(MP_PARSE_NODE_IS_STRUCT(scope->pn));
mp_parse_node_struct_t *pns = (mp_parse_node_struct_t*)scope->pn;
assert(MP_PARSE_NODE_STRUCT_KIND(pns) == PN_funcdef);
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// work out number of parameters, keywords and default parameters, and add them to the id_info array
// must be done before compiling the body so that arguments are numbered first (for LOAD_FAST etc)
if (comp->pass == MP_PASS_SCOPE) {
comp->have_star = false;
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apply_to_single_or_list(comp, pns->nodes[1], PN_typedargslist, compile_scope_func_param);
}
#if MICROPY_EMIT_NATIVE
else if (scope->emit_options == MP_EMIT_OPT_VIPER) {
// compile annotations; only needed on latter compiler passes
// only needed for viper emitter
// argument annotations
apply_to_single_or_list(comp, pns->nodes[1], PN_typedargslist, compile_scope_func_annotations);
// pns->nodes[2] is return/whole function annotation
mp_parse_node_t pn_annotation = pns->nodes[2];
if (!MP_PARSE_NODE_IS_NULL(pn_annotation)) {
// nodes[2] can be null or a test-expr
if (MP_PARSE_NODE_IS_ID(pn_annotation)) {
qstr ret_type = MP_PARSE_NODE_LEAF_ARG(pn_annotation);
EMIT_ARG(set_native_type, MP_EMIT_NATIVE_TYPE_RETURN, 0, ret_type);
} else {
compile_syntax_error(comp, pn_annotation, "return annotation must be an identifier");
}
}
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}
#endif // MICROPY_EMIT_NATIVE
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compile_node(comp, pns->nodes[3]); // 3 is function body
// emit return if it wasn't the last opcode
if (!EMIT(last_emit_was_return_value)) {
EMIT_ARG(load_const_tok, MP_TOKEN_KW_NONE);
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EMIT(return_value);
}
} else if (scope->kind == SCOPE_LAMBDA) {
assert(MP_PARSE_NODE_IS_STRUCT(scope->pn));
mp_parse_node_struct_t *pns = (mp_parse_node_struct_t*)scope->pn;
assert(MP_PARSE_NODE_STRUCT_NUM_NODES(pns) == 3);
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// work out number of parameters, keywords and default parameters, and add them to the id_info array
// must be done before compiling the body so that arguments are numbered first (for LOAD_FAST etc)
if (comp->pass == MP_PASS_SCOPE) {
comp->have_star = false;
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apply_to_single_or_list(comp, pns->nodes[0], PN_varargslist, compile_scope_lambda_param);
}
compile_node(comp, pns->nodes[1]); // 1 is lambda body
// if the lambda is a generator, then we return None, not the result of the expression of the lambda
if (scope->scope_flags & MP_SCOPE_FLAG_GENERATOR) {
EMIT(pop_top);
EMIT_ARG(load_const_tok, MP_TOKEN_KW_NONE);
}
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EMIT(return_value);
} else if (scope->kind == SCOPE_LIST_COMP || scope->kind == SCOPE_DICT_COMP || scope->kind == SCOPE_SET_COMP || scope->kind == SCOPE_GEN_EXPR) {
// a bit of a hack at the moment
assert(MP_PARSE_NODE_IS_STRUCT(scope->pn));
mp_parse_node_struct_t *pns = (mp_parse_node_struct_t*)scope->pn;
assert(MP_PARSE_NODE_STRUCT_NUM_NODES(pns) == 2);
assert(MP_PARSE_NODE_IS_STRUCT_KIND(pns->nodes[1], PN_comp_for));
mp_parse_node_struct_t *pns_comp_for = (mp_parse_node_struct_t*)pns->nodes[1];
11 years ago
// We need a unique name for the comprehension argument (the iterator).
// CPython uses .0, but we should be able to use anything that won't
// clash with a user defined variable. Best to use an existing qstr,
// so we use the blank qstr.
qstr qstr_arg = MP_QSTR_;
if (comp->pass == MP_PASS_SCOPE) {
11 years ago
bool added;
id_info_t *id_info = scope_find_or_add_id(comp->scope_cur, qstr_arg, &added);
assert(added);
id_info->kind = ID_INFO_KIND_LOCAL;
scope->num_pos_args = 1;
11 years ago
}
if (scope->kind == SCOPE_LIST_COMP) {
EMIT_ARG(build_list, 0);
11 years ago
} else if (scope->kind == SCOPE_DICT_COMP) {
EMIT_ARG(build_map, 0);
#if MICROPY_PY_BUILTINS_SET
11 years ago
} else if (scope->kind == SCOPE_SET_COMP) {
EMIT_ARG(build_set, 0);
#endif
11 years ago
}
compile_load_id(comp, qstr_arg);
compile_scope_comp_iter(comp, pns_comp_for, pns->nodes[0], 0);
11 years ago
if (scope->kind == SCOPE_GEN_EXPR) {
EMIT_ARG(load_const_tok, MP_TOKEN_KW_NONE);
11 years ago
}
EMIT(return_value);
} else {
assert(scope->kind == SCOPE_CLASS);
assert(MP_PARSE_NODE_IS_STRUCT(scope->pn));
mp_parse_node_struct_t *pns = (mp_parse_node_struct_t*)scope->pn;
assert(MP_PARSE_NODE_STRUCT_KIND(pns) == PN_classdef);
11 years ago
if (comp->pass == MP_PASS_SCOPE) {
11 years ago
bool added;
id_info_t *id_info = scope_find_or_add_id(scope, MP_QSTR___class__, &added);
11 years ago
assert(added);
id_info->kind = ID_INFO_KIND_LOCAL;
}
compile_load_id(comp, MP_QSTR___name__);
compile_store_id(comp, MP_QSTR___module__);
EMIT_ARG(load_const_str, MP_PARSE_NODE_LEAF_ARG(pns->nodes[0])); // 0 is class name
compile_store_id(comp, MP_QSTR___qualname__);
11 years ago
check_for_doc_string(comp, pns->nodes[2]);
compile_node(comp, pns->nodes[2]); // 2 is class body
id_info_t *id = scope_find(scope, MP_QSTR___class__);
11 years ago
assert(id != NULL);
if (id->kind == ID_INFO_KIND_LOCAL) {
EMIT_ARG(load_const_tok, MP_TOKEN_KW_NONE);
11 years ago
} else {
EMIT_LOAD_FAST(MP_QSTR___class__, id->local_num);
11 years ago
}
EMIT(return_value);
}
EMIT(end_pass);
// make sure we match all the exception levels
assert(comp->cur_except_level == 0);
}
#if MICROPY_EMIT_INLINE_THUMB
// requires 3 passes: SCOPE, CODE_SIZE, EMIT
STATIC void compile_scope_inline_asm(compiler_t *comp, scope_t *scope, pass_kind_t pass) {
comp->pass = pass;
comp->scope_cur = scope;
comp->next_label = 1;
if (scope->kind != SCOPE_FUNCTION) {
compile_syntax_error(comp, MP_PARSE_NODE_NULL, "inline assembler must be a function");
return;
}
if (comp->pass > MP_PASS_SCOPE) {
EMIT_INLINE_ASM_ARG(start_pass, comp->pass, comp->scope_cur, &comp->compile_error);
}
// get the function definition parse node
assert(MP_PARSE_NODE_IS_STRUCT(scope->pn));
mp_parse_node_struct_t *pns = (mp_parse_node_struct_t*)scope->pn;
assert(MP_PARSE_NODE_STRUCT_KIND(pns) == PN_funcdef);
//qstr f_id = MP_PARSE_NODE_LEAF_ARG(pns->nodes[0]); // function name
// parameters are in pns->nodes[1]
if (comp->pass == MP_PASS_CODE_SIZE) {
mp_parse_node_t *pn_params;
int n_params = mp_parse_node_extract_list(&pns->nodes[1], PN_typedargslist, &pn_params);
scope->num_pos_args = EMIT_INLINE_ASM_ARG(count_params, n_params, pn_params);
if (comp->compile_error != MP_OBJ_NULL) {
goto inline_asm_error;
}
}
// pns->nodes[2] is function return annotation
mp_uint_t type_sig = MP_NATIVE_TYPE_INT;
mp_parse_node_t pn_annotation = pns->nodes[2];
if (!MP_PARSE_NODE_IS_NULL(pn_annotation)) {
// nodes[2] can be null or a test-expr
if (MP_PARSE_NODE_IS_ID(pn_annotation)) {
qstr ret_type = MP_PARSE_NODE_LEAF_ARG(pn_annotation);
switch (ret_type) {
case MP_QSTR_object: type_sig = MP_NATIVE_TYPE_OBJ; break;
case MP_QSTR_bool: type_sig = MP_NATIVE_TYPE_BOOL; break;
case MP_QSTR_int: type_sig = MP_NATIVE_TYPE_INT; break;
case MP_QSTR_uint: type_sig = MP_NATIVE_TYPE_UINT; break;
default: compile_syntax_error(comp, pn_annotation, "unknown type"); return;
}
} else {
compile_syntax_error(comp, pn_annotation, "return annotation must be an identifier");
}
}
mp_parse_node_t pn_body = pns->nodes[3]; // body
mp_parse_node_t *nodes;
int num = mp_parse_node_extract_list(&pn_body, PN_suite_block_stmts, &nodes);
for (int i = 0; i < num; i++) {
assert(MP_PARSE_NODE_IS_STRUCT(nodes[i]));
mp_parse_node_struct_t *pns2 = (mp_parse_node_struct_t*)nodes[i];
if (MP_PARSE_NODE_STRUCT_KIND(pns2) == PN_pass_stmt) {
// no instructions
continue;
} else if (MP_PARSE_NODE_STRUCT_KIND(pns2) != PN_expr_stmt) {
// not an instruction; error
not_an_instruction:
compile_syntax_error(comp, nodes[i], "expecting an assembler instruction");
return;
}
// check structure of parse node
assert(MP_PARSE_NODE_IS_STRUCT(pns2->nodes[0]));
if (!MP_PARSE_NODE_IS_NULL(pns2->nodes[1])) {
goto not_an_instruction;
}
pns2 = (mp_parse_node_struct_t*)pns2->nodes[0];
if (MP_PARSE_NODE_STRUCT_KIND(pns2) != PN_atom_expr_normal) {
goto not_an_instruction;
}
if (!MP_PARSE_NODE_IS_ID(pns2->nodes[0])) {
goto not_an_instruction;
}
if (!MP_PARSE_NODE_IS_STRUCT_KIND(pns2->nodes[1], PN_trailer_paren)) {
goto not_an_instruction;
}
// parse node looks like an instruction
// get instruction name and args
qstr op = MP_PARSE_NODE_LEAF_ARG(pns2->nodes[0]);
pns2 = (mp_parse_node_struct_t*)pns2->nodes[1]; // PN_trailer_paren
mp_parse_node_t *pn_arg;
int n_args = mp_parse_node_extract_list(&pns2->nodes[0], PN_arglist, &pn_arg);
// emit instructions
if (op == MP_QSTR_label) {
if (!(n_args == 1 && MP_PARSE_NODE_IS_ID(pn_arg[0]))) {
compile_syntax_error(comp, nodes[i], "'label' requires 1 argument");
return;
}
uint lab = comp_next_label(comp);
if (pass > MP_PASS_SCOPE) {
if (!EMIT_INLINE_ASM_ARG(label, lab, MP_PARSE_NODE_LEAF_ARG(pn_arg[0]))) {
compile_syntax_error(comp, nodes[i], "label redefined");
return;
}
}
} else if (op == MP_QSTR_align) {
if (!(n_args == 1 && MP_PARSE_NODE_IS_SMALL_INT(pn_arg[0]))) {
compile_syntax_error(comp, nodes[i], "'align' requires 1 argument");
return;
}
if (pass > MP_PASS_SCOPE) {
EMIT_INLINE_ASM_ARG(align, MP_PARSE_NODE_LEAF_SMALL_INT(pn_arg[0]));
}
} else if (op == MP_QSTR_data) {
if (!(n_args >= 2 && MP_PARSE_NODE_IS_SMALL_INT(pn_arg[0]))) {
compile_syntax_error(comp, nodes[i], "'data' requires at least 2 arguments");
return;
}
if (pass > MP_PASS_SCOPE) {
mp_int_t bytesize = MP_PARSE_NODE_LEAF_SMALL_INT(pn_arg[0]);
for (uint j = 1; j < n_args; j++) {
if (!MP_PARSE_NODE_IS_SMALL_INT(pn_arg[j])) {
compile_syntax_error(comp, nodes[i], "'data' requires integer arguments");
return;
}
EMIT_INLINE_ASM_ARG(data, bytesize, MP_PARSE_NODE_LEAF_SMALL_INT(pn_arg[j]));
}
}
} else {
if (pass > MP_PASS_SCOPE) {
EMIT_INLINE_ASM_ARG(op, op, n_args, pn_arg);
}
}
if (comp->compile_error != MP_OBJ_NULL) {
pns = pns2; // this is the parse node that had the error
goto inline_asm_error;
}
}
if (comp->pass > MP_PASS_SCOPE) {
EMIT_INLINE_ASM_ARG(end_pass, type_sig);
}
if (comp->compile_error != MP_OBJ_NULL) {
// inline assembler had an error; set line for its exception
inline_asm_error:
comp->compile_error_line = pns->source_line;
}
11 years ago
}
#endif
11 years ago
STATIC void scope_compute_things(scope_t *scope) {
// in Micro Python we put the *x parameter after all other parameters (except **y)
if (scope->scope_flags & MP_SCOPE_FLAG_VARARGS) {
id_info_t *id_param = NULL;
for (int i = scope->id_info_len - 1; i >= 0; i--) {
id_info_t *id = &scope->id_info[i];
if (id->flags & ID_FLAG_IS_STAR_PARAM) {
if (id_param != NULL) {
// swap star param with last param
id_info_t temp = *id_param; *id_param = *id; *id = temp;
}
break;
} else if (id_param == NULL && id->flags == ID_FLAG_IS_PARAM) {
id_param = id;
}
}
}
11 years ago
// in functions, turn implicit globals into explicit globals
// compute the index of each local
11 years ago
scope->num_locals = 0;
for (int i = 0; i < scope->id_info_len; i++) {
id_info_t *id = &scope->id_info[i];
if (scope->kind == SCOPE_CLASS && id->qst == MP_QSTR___class__) {
11 years ago
// __class__ is not counted as a local; if it's used then it becomes a ID_INFO_KIND_CELL
continue;
}
if (scope->kind >= SCOPE_FUNCTION && scope->kind <= SCOPE_GEN_EXPR && id->kind == ID_INFO_KIND_GLOBAL_IMPLICIT) {
id->kind = ID_INFO_KIND_GLOBAL_EXPLICIT;
}
// params always count for 1 local, even if they are a cell
if (id->kind == ID_INFO_KIND_LOCAL || (id->flags & ID_FLAG_IS_PARAM)) {
id->local_num = scope->num_locals++;
}
}
unix-cpy: Remove unix-cpy. It&#39;s no longer needed. unix-cpy was originally written to get semantic equivalent with CPython without writing functional tests. When writing the initial implementation of uPy it was a long way between lexer and functional tests, so the half-way test was to make sure that the bytecode was correct. The idea was that if the uPy bytecode matched CPython 1-1 then uPy would be proper Python if the bytecodes acted correctly. And having matching bytecode meant that it was less likely to miss some deep subtlety in the Python semantics that would require an architectural change later on. But that is all history and it no longer makes sense to retain the ability to output CPython bytecode, because: 1. It outputs CPython 3.3 compatible bytecode. CPython&#39;s bytecode changes from version to version, and seems to have changed quite a bit in 3.5. There&#39;s no point in changing the bytecode output to match CPython anymore. 2. uPy and CPy do different optimisations to the bytecode which makes it harder to match. 3. The bytecode tests are not run. They were never part of Travis and are not run locally anymore. 4. The EMIT_CPYTHON option needs a lot of extra source code which adds heaps of noise, especially in compile.c. 5. Now that there is an extensive test suite (which tests functionality) there is no need to match the bytecode. Some very subtle behaviour is tested with the test suite and passing these tests is a much better way to stay Python-language compliant, rather than trying to match CPy bytecode.
9 years ago
// compute the index of cell vars
for (int i = 0; i < scope->id_info_len; i++) {
id_info_t *id = &scope->id_info[i];
// in Micro Python the cells come right after the fast locals
// parameters are not counted here, since they remain at the start
// of the locals, even if they are cell vars
if (id->kind == ID_INFO_KIND_CELL && !(id->flags & ID_FLAG_IS_PARAM)) {
id->local_num = scope->num_locals;
scope->num_locals += 1;
}
}
unix-cpy: Remove unix-cpy. It&#39;s no longer needed. unix-cpy was originally written to get semantic equivalent with CPython without writing functional tests. When writing the initial implementation of uPy it was a long way between lexer and functional tests, so the half-way test was to make sure that the bytecode was correct. The idea was that if the uPy bytecode matched CPython 1-1 then uPy would be proper Python if the bytecodes acted correctly. And having matching bytecode meant that it was less likely to miss some deep subtlety in the Python semantics that would require an architectural change later on. But that is all history and it no longer makes sense to retain the ability to output CPython bytecode, because: 1. It outputs CPython 3.3 compatible bytecode. CPython&#39;s bytecode changes from version to version, and seems to have changed quite a bit in 3.5. There&#39;s no point in changing the bytecode output to match CPython anymore. 2. uPy and CPy do different optimisations to the bytecode which makes it harder to match. 3. The bytecode tests are not run. They were never part of Travis and are not run locally anymore. 4. The EMIT_CPYTHON option needs a lot of extra source code which adds heaps of noise, especially in compile.c. 5. Now that there is an extensive test suite (which tests functionality) there is no need to match the bytecode. Some very subtle behaviour is tested with the test suite and passing these tests is a much better way to stay Python-language compliant, rather than trying to match CPy bytecode.
9 years ago
// compute the index of free vars
// make sure they are in the order of the parent scope
if (scope->parent != NULL) {
int num_free = 0;
for (int i = 0; i < scope->parent->id_info_len; i++) {
id_info_t *id = &scope->parent->id_info[i];
if (id->kind == ID_INFO_KIND_CELL || id->kind == ID_INFO_KIND_FREE) {
for (int j = 0; j < scope->id_info_len; j++) {
id_info_t *id2 = &scope->id_info[j];
if (id2->kind == ID_INFO_KIND_FREE && id->qst == id2->qst) {
assert(!(id2->flags & ID_FLAG_IS_PARAM)); // free vars should not be params
// in Micro Python the frees come first, before the params
id2->local_num = num_free;
num_free += 1;
}
}
}
11 years ago
}
// in Micro Python shift all other locals after the free locals
if (num_free > 0) {
for (int i = 0; i < scope->id_info_len; i++) {
id_info_t *id = &scope->id_info[i];
if (id->kind != ID_INFO_KIND_FREE || (id->flags & ID_FLAG_IS_PARAM)) {
id->local_num += num_free;
}
}
scope->num_pos_args += num_free; // free vars are counted as params for passing them into the function
scope->num_locals += num_free;
}
11 years ago
}
}
#if !MICROPY_PERSISTENT_CODE_SAVE
STATIC
#endif
mp_raw_code_t *mp_compile_to_raw_code(mp_parse_tree_t *parse_tree, qstr source_file, uint emit_opt, bool is_repl) {
// put compiler state on the stack, it's relatively small
compiler_t comp_state = {0};
compiler_t *comp = &comp_state;
comp->source_file = source_file;
11 years ago
comp->is_repl = is_repl;
11 years ago
// create the module scope
scope_t *module_scope = scope_new_and_link(comp, SCOPE_MODULE, parse_tree->root, emit_opt);
// create standard emitter; it's used at least for MP_PASS_SCOPE
emit_t *emit_bc = emit_bc_new();
// compile pass 1
comp->emit = emit_bc;
#if MICROPY_EMIT_NATIVE
comp->emit_method_table = &emit_bc_method_table;
#endif
uint max_num_labels = 0;
for (scope_t *s = comp->scope_head; s != NULL && comp->compile_error == MP_OBJ_NULL; s = s->next) {
if (false) {
#if MICROPY_EMIT_INLINE_THUMB
} else if (s->emit_options == MP_EMIT_OPT_ASM_THUMB) {
compile_scope_inline_asm(comp, s, MP_PASS_SCOPE);
#endif
} else {
compile_scope(comp, s, MP_PASS_SCOPE);
}
// update maximim number of labels needed
if (comp->next_label > max_num_labels) {
max_num_labels = comp->next_label;
}
11 years ago
}
// compute some things related to scope and identifiers
for (scope_t *s = comp->scope_head; s != NULL && comp->compile_error == MP_OBJ_NULL; s = s->next) {
scope_compute_things(s);
11 years ago
}
// set max number of labels now that it's calculated
emit_bc_set_max_num_labels(emit_bc, max_num_labels);
// compile pass 2 and 3
#if MICROPY_EMIT_NATIVE
emit_t *emit_native = NULL;
#endif
#if MICROPY_EMIT_INLINE_THUMB
emit_inline_asm_t *emit_inline_thumb = NULL;
#endif
for (scope_t *s = comp->scope_head; s != NULL && comp->compile_error == MP_OBJ_NULL; s = s->next) {
if (false) {
// dummy
#if MICROPY_EMIT_INLINE_THUMB
} else if (s->emit_options == MP_EMIT_OPT_ASM_THUMB) {
// inline assembly for thumb
if (emit_inline_thumb == NULL) {
emit_inline_thumb = emit_inline_thumb_new(max_num_labels);
}
comp->emit = NULL;
comp->emit_inline_asm = emit_inline_thumb;
comp->emit_inline_asm_method_table = &emit_inline_thumb_method_table;
compile_scope_inline_asm(comp, s, MP_PASS_CODE_SIZE);
if (comp->compile_error == MP_OBJ_NULL) {
compile_scope_inline_asm(comp, s, MP_PASS_EMIT);
}
#endif
} else {
// choose the emit type
switch (s->emit_options) {
#if MICROPY_EMIT_NATIVE
case MP_EMIT_OPT_NATIVE_PYTHON:
case MP_EMIT_OPT_VIPER:
#if MICROPY_EMIT_X64
if (emit_native == NULL) {
emit_native = emit_native_x64_new(&comp->compile_error, max_num_labels);
}
comp->emit_method_table = &emit_native_x64_method_table;
#elif MICROPY_EMIT_X86
if (emit_native == NULL) {
emit_native = emit_native_x86_new(&comp->compile_error, max_num_labels);
}
comp->emit_method_table = &emit_native_x86_method_table;
#elif MICROPY_EMIT_THUMB
if (emit_native == NULL) {
emit_native = emit_native_thumb_new(&comp->compile_error, max_num_labels);
}
comp->emit_method_table = &emit_native_thumb_method_table;
#elif MICROPY_EMIT_ARM
if (emit_native == NULL) {
emit_native = emit_native_arm_new(&comp->compile_error, max_num_labels);
}
comp->emit_method_table = &emit_native_arm_method_table;
#endif
comp->emit = emit_native;
EMIT_ARG(set_native_type, MP_EMIT_NATIVE_TYPE_ENABLE, s->emit_options == MP_EMIT_OPT_VIPER, 0);
break;
#endif // MICROPY_EMIT_NATIVE
default:
comp->emit = emit_bc;
#if MICROPY_EMIT_NATIVE
comp->emit_method_table = &emit_bc_method_table;
#endif
break;
}
// need a pass to compute stack size
compile_scope(comp, s, MP_PASS_STACK_SIZE);
// second last pass: compute code size
if (comp->compile_error == MP_OBJ_NULL) {
compile_scope(comp, s, MP_PASS_CODE_SIZE);
}
// final pass: emit code
if (comp->compile_error == MP_OBJ_NULL) {
compile_scope(comp, s, MP_PASS_EMIT);
}
}
11 years ago
}
if (comp->compile_error != MP_OBJ_NULL) {
// if there is no line number for the error then use the line
// number for the start of this scope
compile_error_set_line(comp, comp->scope_cur->pn);
// add a traceback to the exception using relevant source info
mp_obj_exception_add_traceback(comp->compile_error, comp->source_file,
comp->compile_error_line, comp->scope_cur->simple_name);
}
// free the emitters
emit_bc_free(emit_bc);
#if MICROPY_EMIT_NATIVE
if (emit_native != NULL) {
#if MICROPY_EMIT_X64
emit_native_x64_free(emit_native);
#elif MICROPY_EMIT_X86
emit_native_x86_free(emit_native);
#elif MICROPY_EMIT_THUMB
emit_native_thumb_free(emit_native);
#elif MICROPY_EMIT_ARM
emit_native_arm_free(emit_native);
#endif
}
#endif
#if MICROPY_EMIT_INLINE_THUMB
if (emit_inline_thumb != NULL) {
emit_inline_thumb_free(emit_inline_thumb);
}
#endif
// free the parse tree
mp_parse_tree_clear(parse_tree);
// free the scopes
mp_raw_code_t *outer_raw_code = module_scope->raw_code;
for (scope_t *s = module_scope; s;) {
scope_t *next = s->next;
scope_free(s);
s = next;
}
11 years ago
if (comp->compile_error != MP_OBJ_NULL) {
nlr_raise(comp->compile_error);
} else {
return outer_raw_code;
}
11 years ago
}
mp_obj_t mp_compile(mp_parse_tree_t *parse_tree, qstr source_file, uint emit_opt, bool is_repl) {
mp_raw_code_t *rc = mp_compile_to_raw_code(parse_tree, source_file, emit_opt, is_repl);
// return function that executes the outer module
return mp_make_function_from_raw_code(rc, MP_OBJ_NULL, MP_OBJ_NULL);
}
#endif // MICROPY_ENABLE_COMPILER