circuitpython/py/emitbc.c

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#include <stdbool.h>
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#include <stdint.h>
#include <stdio.h>
#include <string.h>
#include <assert.h>
#include "misc.h"
#include "mpconfig.h"
#include "qstr.h"
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#include "lexer.h"
#include "parse.h"
#include "scope.h"
#include "runtime0.h"
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#include "emit.h"
#include "emitglue.h"
#include "bc0.h"
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struct _emit_t {
pass_kind_t pass;
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int stack_size;
bool last_emit_was_return_value;
scope_t *scope;
uint last_source_line_offset;
uint last_source_line;
uint max_num_labels;
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uint *label_offsets;
uint code_info_offset;
uint code_info_size;
uint byte_code_offset;
uint byte_code_size;
byte *code_base; // stores both byte code and code info
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byte dummy_data[8];
};
STATIC void emit_bc_rot_two(emit_t *emit);
STATIC void emit_bc_rot_three(emit_t *emit);
emit_t *emit_bc_new(uint max_num_labels) {
emit_t *emit = m_new0(emit_t, 1);
emit->max_num_labels = max_num_labels;
emit->label_offsets = m_new(uint, emit->max_num_labels);
return emit;
}
void emit_bc_free(emit_t *emit) {
m_del(uint, emit->label_offsets, emit->max_num_labels);
m_del_obj(emit_t, emit);
}
// all functions must go through this one to emit code info
STATIC byte* emit_get_cur_to_write_code_info(emit_t* emit, int num_bytes_to_write) {
//printf("emit %d\n", num_bytes_to_write);
if (emit->pass < PASS_3) {
emit->code_info_offset += num_bytes_to_write;
return emit->dummy_data;
} else {
assert(emit->code_info_offset + num_bytes_to_write <= emit->code_info_size);
byte *c = emit->code_base + emit->code_info_offset;
emit->code_info_offset += num_bytes_to_write;
return c;
}
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}
STATIC void emit_write_code_info_qstr(emit_t* emit, qstr qstr) {
byte* c = emit_get_cur_to_write_code_info(emit, 4);
// TODO variable length encoding for qstr
c[0] = qstr & 0xff;
c[1] = (qstr >> 8) & 0xff;
c[2] = (qstr >> 16) & 0xff;
c[3] = (qstr >> 24) & 0xff;
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}
STATIC void emit_write_code_info_bytes_lines(emit_t* emit, uint bytes_to_skip, uint lines_to_skip) {
for (; bytes_to_skip > 31; bytes_to_skip -= 31) {
*emit_get_cur_to_write_code_info(emit, 1) = 31;
}
for (; lines_to_skip > 7; lines_to_skip -= 7) {
*emit_get_cur_to_write_code_info(emit, 1) = 7 << 5;
}
*emit_get_cur_to_write_code_info(emit, 1) = bytes_to_skip | (lines_to_skip << 5);
}
// all functions must go through this one to emit byte code
STATIC byte* emit_get_cur_to_write_byte_code(emit_t* emit, int num_bytes_to_write) {
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//printf("emit %d\n", num_bytes_to_write);
if (emit->pass < PASS_3) {
emit->byte_code_offset += num_bytes_to_write;
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return emit->dummy_data;
} else {
assert(emit->byte_code_offset + num_bytes_to_write <= emit->byte_code_size);
byte *c = emit->code_base + emit->code_info_size + emit->byte_code_offset;
emit->byte_code_offset += num_bytes_to_write;
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return c;
}
}
STATIC void emit_write_byte_code_byte(emit_t* emit, byte b1) {
byte* c = emit_get_cur_to_write_byte_code(emit, 1);
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c[0] = b1;
}
STATIC void emit_write_byte_code_byte_byte(emit_t* emit, byte b1, uint b2) {
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assert((b2 & (~0xff)) == 0);
byte* c = emit_get_cur_to_write_byte_code(emit, 2);
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c[0] = b1;
c[1] = b2;
}
STATIC void emit_write_byte_code_uint(emit_t* emit, uint num) {
// We store each 7 bits in a separate byte, and that's how many bytes needed
byte buf[(BYTES_PER_WORD * 8 + 6) / 7];
byte *p = buf + sizeof(buf);
// We encode in little-ending order, but store in big-endian, to help decoding
do {
*--p = num & 0x7f;
num >>= 7;
} while (num != 0);
byte* c = emit_get_cur_to_write_byte_code(emit, buf + sizeof(buf) - p);
while (p != buf + sizeof(buf) - 1) {
*c++ = *p++ | 0x80;
}
*c = *p;
}
// Similar to emit_write_byte_code_uint(), just some extra handling to encode sign
STATIC void emit_write_byte_code_byte_int(emit_t* emit, byte b1, machine_int_t num) {
emit_write_byte_code_byte(emit, b1);
// We store each 7 bits in a separate byte, and that's how many bytes needed
byte buf[(BYTES_PER_WORD * 8 + 6) / 7];
byte *p = buf + sizeof(buf);
// We encode in little-ending order, but store in big-endian, to help decoding
do {
*--p = num & 0x7f;
num >>= 7;
} while (num != 0 && num != -1);
// Make sure that highest bit we stored (mask 0x40) matches sign
// of the number. If not, store extra byte just to encode sign
if (num == -1 && (*p & 0x40) == 0) {
*--p = 0x7f;
} else if (num == 0 && (*p & 0x40) != 0) {
*--p = 0;
}
byte* c = emit_get_cur_to_write_byte_code(emit, buf + sizeof(buf) - p);
while (p != buf + sizeof(buf) - 1) {
*c++ = *p++ | 0x80;
}
*c = *p;
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}
STATIC void emit_write_byte_code_byte_uint(emit_t* emit, byte b, uint num) {
emit_write_byte_code_byte(emit, b);
emit_write_byte_code_uint(emit, num);
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}
/* currently unused
STATIC void emit_write_byte_code_byte_uint_uint(emit_t* emit, byte b, uint num1, uint num2) {
emit_write_byte_code_byte(emit, b);
emit_write_byte_code_byte_uint(emit, num1);
emit_write_byte_code_byte_uint(emit, num2);
}
*/
STATIC void emit_write_byte_code_byte_qstr(emit_t* emit, byte b, qstr qstr) {
emit_write_byte_code_byte_uint(emit, b, qstr);
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}
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// unsigned labels are relative to ip following this instruction, stored as 16 bits
STATIC void emit_write_byte_code_byte_unsigned_label(emit_t* emit, byte b1, uint label) {
uint byte_code_offset;
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if (emit->pass < PASS_3) {
byte_code_offset = 0;
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} else {
byte_code_offset = emit->label_offsets[label] - emit->byte_code_offset - 3;
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}
byte* c = emit_get_cur_to_write_byte_code(emit, 3);
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c[0] = b1;
c[1] = byte_code_offset;
c[2] = byte_code_offset >> 8;
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}
// signed labels are relative to ip following this instruction, stored as 16 bits, in excess
STATIC void emit_write_byte_code_byte_signed_label(emit_t* emit, byte b1, uint label) {
int byte_code_offset;
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if (emit->pass < PASS_3) {
byte_code_offset = 0;
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} else {
byte_code_offset = emit->label_offsets[label] - emit->byte_code_offset - 3 + 0x8000;
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}
byte* c = emit_get_cur_to_write_byte_code(emit, 3);
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c[0] = b1;
c[1] = byte_code_offset;
c[2] = byte_code_offset >> 8;
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}
STATIC void emit_bc_set_native_types(emit_t *emit, bool do_native_types) {
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}
STATIC void emit_bc_start_pass(emit_t *emit, pass_kind_t pass, scope_t *scope) {
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emit->pass = pass;
emit->stack_size = 0;
emit->last_emit_was_return_value = false;
emit->scope = scope;
emit->last_source_line_offset = 0;
emit->last_source_line = 1;
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if (pass == PASS_2) {
memset(emit->label_offsets, -1, emit->max_num_labels * sizeof(uint));
}
emit->byte_code_offset = 0;
emit->code_info_offset = 0;
// write code info size (don't know size at this stage in PASS_2 so need to use maximum space (4 bytes) to write it)
{
byte* c = emit_get_cur_to_write_code_info(emit, 4);
machine_uint_t s = emit->code_info_size;
c[0] = s & 0xff;
c[1] = (s >> 8) & 0xff;
c[2] = (s >> 16) & 0xff;
c[3] = (s >> 24) & 0xff;
}
// code info
emit_write_code_info_qstr(emit, scope->source_file);
emit_write_code_info_qstr(emit, scope->simple_name);
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// bytecode prelude: local state size and exception stack size; 16 bit uints for now
{
byte* c = emit_get_cur_to_write_byte_code(emit, 4);
uint n_state = scope->num_locals + scope->stack_size;
if (n_state == 0) {
// Need at least 1 entry in the state, in the case an exception is
// propagated through this function, the exception is returned in
// the highest slot in the state (fastn[0], see vm.c).
n_state = 1;
}
c[0] = n_state & 0xff;
c[1] = (n_state >> 8) & 0xff;
c[2] = scope->exc_stack_size & 0xff;
c[3] = (scope->exc_stack_size >> 8) & 0xff;
}
// bytecode prelude: initialise closed over variables
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int num_cell = 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_CELL) {
num_cell += 1;
}
}
assert(num_cell <= 255);
emit_write_byte_code_byte(emit, num_cell); // write number of locals that are cells
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for (int i = 0; i < scope->id_info_len; i++) {
id_info_t *id = &scope->id_info[i];
if (id->kind == ID_INFO_KIND_CELL) {
emit_write_byte_code_byte(emit, id->local_num); // write the local which should be converted to a cell
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}
}
}
STATIC void emit_bc_end_pass(emit_t *emit) {
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// check stack is back to zero size
if (emit->stack_size != 0) {
printf("ERROR: stack size not back to zero; got %d\n", emit->stack_size);
}
emit_write_code_info_bytes_lines(emit, 0, 0); // end of line number info
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if (emit->pass == PASS_2) {
// calculate size of code in bytes
emit->code_info_size = emit->code_info_offset;
emit->byte_code_size = emit->byte_code_offset;
emit->code_base = m_new(byte, emit->code_info_size + emit->byte_code_size);
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} else if (emit->pass == PASS_3) {
qstr *arg_names = m_new(qstr, emit->scope->num_params);
for (int i = 0; i < emit->scope->num_params; i++) {
arg_names[i] = emit->scope->id_info[i].qstr;
}
mp_emit_glue_assign_byte_code(emit->scope->unique_code_id, emit->code_base,
emit->code_info_size + emit->byte_code_size,
emit->scope->num_params, emit->scope->num_locals,
emit->scope->scope_flags, arg_names);
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}
}
STATIC bool emit_bc_last_emit_was_return_value(emit_t *emit) {
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return emit->last_emit_was_return_value;
}
STATIC int emit_bc_get_stack_size(emit_t *emit) {
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return emit->stack_size;
}
STATIC void emit_bc_set_stack_size(emit_t *emit, int size) {
emit->stack_size = size;
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}
STATIC void emit_bc_set_source_line(emit_t *emit, int source_line) {
//printf("source: line %d -> %d offset %d -> %d\n", emit->last_source_line, source_line, emit->last_source_line_offset, emit->byte_code_offset);
#if MICROPY_ENABLE_SOURCE_LINE
if (source_line > emit->last_source_line) {
uint bytes_to_skip = emit->byte_code_offset - emit->last_source_line_offset;
uint lines_to_skip = source_line - emit->last_source_line;
emit_write_code_info_bytes_lines(emit, bytes_to_skip, lines_to_skip);
//printf(" %d %d\n", bytes_to_skip, lines_to_skip);
emit->last_source_line_offset = emit->byte_code_offset;
emit->last_source_line = source_line;
}
#endif
}
STATIC void emit_bc_load_id(emit_t *emit, qstr qstr) {
emit_common_load_id(emit, &emit_bc_method_table, emit->scope, qstr);
}
STATIC void emit_bc_store_id(emit_t *emit, qstr qstr) {
emit_common_store_id(emit, &emit_bc_method_table, emit->scope, qstr);
}
STATIC void emit_bc_delete_id(emit_t *emit, qstr qstr) {
emit_common_delete_id(emit, &emit_bc_method_table, emit->scope, qstr);
}
STATIC void emit_bc_pre(emit_t *emit, int stack_size_delta) {
assert((int)emit->stack_size + stack_size_delta >= 0);
emit->stack_size += stack_size_delta;
if (emit->stack_size > emit->scope->stack_size) {
emit->scope->stack_size = emit->stack_size;
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}
emit->last_emit_was_return_value = false;
}
STATIC void emit_bc_label_assign(emit_t *emit, uint l) {
emit_bc_pre(emit, 0);
assert(l < emit->max_num_labels);
if (emit->pass == PASS_2) {
// assign label offset
assert(emit->label_offsets[l] == -1);
emit->label_offsets[l] = emit->byte_code_offset;
} else if (emit->pass == PASS_3) {
// ensure label offset has not changed from PASS_2 to PASS_3
//printf("l%d: (at %d vs %d)\n", l, emit->byte_code_offset, emit->label_offsets[l]);
assert(emit->label_offsets[l] == emit->byte_code_offset);
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}
}
STATIC void emit_bc_import_name(emit_t *emit, qstr qstr) {
emit_bc_pre(emit, -1);
emit_write_byte_code_byte_qstr(emit, MP_BC_IMPORT_NAME, qstr);
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}
STATIC void emit_bc_import_from(emit_t *emit, qstr qstr) {
emit_bc_pre(emit, 1);
emit_write_byte_code_byte_qstr(emit, MP_BC_IMPORT_FROM, qstr);
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}
STATIC void emit_bc_import_star(emit_t *emit) {
emit_bc_pre(emit, -1);
emit_write_byte_code_byte(emit, MP_BC_IMPORT_STAR);
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}
STATIC void emit_bc_load_const_tok(emit_t *emit, mp_token_kind_t tok) {
emit_bc_pre(emit, 1);
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switch (tok) {
case MP_TOKEN_KW_FALSE: emit_write_byte_code_byte(emit, MP_BC_LOAD_CONST_FALSE); break;
case MP_TOKEN_KW_NONE: emit_write_byte_code_byte(emit, MP_BC_LOAD_CONST_NONE); break;
case MP_TOKEN_KW_TRUE: emit_write_byte_code_byte(emit, MP_BC_LOAD_CONST_TRUE); break;
case MP_TOKEN_ELLIPSIS: emit_write_byte_code_byte(emit, MP_BC_LOAD_CONST_ELLIPSIS); break;
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default: assert(0);
}
}
STATIC void emit_bc_load_const_small_int(emit_t *emit, machine_int_t arg) {
emit_bc_pre(emit, 1);
emit_write_byte_code_byte_int(emit, MP_BC_LOAD_CONST_SMALL_INT, arg);
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}
STATIC void emit_bc_load_const_int(emit_t *emit, qstr qstr) {
emit_bc_pre(emit, 1);
emit_write_byte_code_byte_qstr(emit, MP_BC_LOAD_CONST_INT, qstr);
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}
STATIC void emit_bc_load_const_dec(emit_t *emit, qstr qstr) {
emit_bc_pre(emit, 1);
emit_write_byte_code_byte_qstr(emit, MP_BC_LOAD_CONST_DEC, qstr);
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}
STATIC void emit_bc_load_const_id(emit_t *emit, qstr qstr) {
emit_bc_pre(emit, 1);
emit_write_byte_code_byte_qstr(emit, MP_BC_LOAD_CONST_ID, qstr);
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}
STATIC void emit_bc_load_const_str(emit_t *emit, qstr qstr, bool bytes) {
emit_bc_pre(emit, 1);
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if (bytes) {
emit_write_byte_code_byte_qstr(emit, MP_BC_LOAD_CONST_BYTES, qstr);
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} else {
emit_write_byte_code_byte_qstr(emit, MP_BC_LOAD_CONST_STRING, qstr);
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}
}
STATIC void emit_bc_load_const_verbatim_str(emit_t *emit, const char *str) {
// not needed/supported for BC
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assert(0);
}
STATIC void emit_bc_load_null(emit_t *emit) {
emit_bc_pre(emit, 1);
emit_write_byte_code_byte(emit, MP_BC_LOAD_NULL);
};
STATIC void emit_bc_load_fast(emit_t *emit, qstr qstr, uint id_flags, int local_num) {
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assert(local_num >= 0);
emit_bc_pre(emit, 1);
if (id_flags & ID_FLAG_IS_DELETED) {
// This local may be deleted, so need to do a checked load.
emit_write_byte_code_byte_uint(emit, MP_BC_LOAD_FAST_CHECKED, local_num);
} else {
// This local is never deleted, so can do a fast, uncheched load.
switch (local_num) {
case 0: emit_write_byte_code_byte(emit, MP_BC_LOAD_FAST_0); break;
case 1: emit_write_byte_code_byte(emit, MP_BC_LOAD_FAST_1); break;
case 2: emit_write_byte_code_byte(emit, MP_BC_LOAD_FAST_2); break;
default: emit_write_byte_code_byte_uint(emit, MP_BC_LOAD_FAST_N, local_num); break;
}
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}
}
STATIC void emit_bc_load_deref(emit_t *emit, qstr qstr, int local_num) {
emit_bc_pre(emit, 1);
emit_write_byte_code_byte_uint(emit, MP_BC_LOAD_DEREF, local_num);
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}
STATIC void emit_bc_load_closure(emit_t *emit, qstr qstr, int local_num) {
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// not needed/supported for BC
assert(0);
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}
STATIC void emit_bc_load_name(emit_t *emit, qstr qstr) {
emit_bc_pre(emit, 1);
emit_write_byte_code_byte_qstr(emit, MP_BC_LOAD_NAME, qstr);
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}
STATIC void emit_bc_load_global(emit_t *emit, qstr qstr) {
emit_bc_pre(emit, 1);
emit_write_byte_code_byte_qstr(emit, MP_BC_LOAD_GLOBAL, qstr);
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}
STATIC void emit_bc_load_attr(emit_t *emit, qstr qstr) {
emit_bc_pre(emit, 0);
emit_write_byte_code_byte_qstr(emit, MP_BC_LOAD_ATTR, qstr);
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}
STATIC void emit_bc_load_method(emit_t *emit, qstr qstr) {
emit_bc_pre(emit, 1);
emit_write_byte_code_byte_qstr(emit, MP_BC_LOAD_METHOD, qstr);
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}
STATIC void emit_bc_load_build_class(emit_t *emit) {
emit_bc_pre(emit, 1);
emit_write_byte_code_byte(emit, MP_BC_LOAD_BUILD_CLASS);
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}
STATIC void emit_bc_store_fast(emit_t *emit, qstr qstr, int local_num) {
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assert(local_num >= 0);
emit_bc_pre(emit, -1);
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switch (local_num) {
case 0: emit_write_byte_code_byte(emit, MP_BC_STORE_FAST_0); break;
case 1: emit_write_byte_code_byte(emit, MP_BC_STORE_FAST_1); break;
case 2: emit_write_byte_code_byte(emit, MP_BC_STORE_FAST_2); break;
default: emit_write_byte_code_byte_uint(emit, MP_BC_STORE_FAST_N, local_num); break;
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}
}
STATIC void emit_bc_store_deref(emit_t *emit, qstr qstr, int local_num) {
emit_bc_pre(emit, -1);
emit_write_byte_code_byte_uint(emit, MP_BC_STORE_DEREF, local_num);
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}
STATIC void emit_bc_store_name(emit_t *emit, qstr qstr) {
emit_bc_pre(emit, -1);
emit_write_byte_code_byte_qstr(emit, MP_BC_STORE_NAME, qstr);
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}
STATIC void emit_bc_store_global(emit_t *emit, qstr qstr) {
emit_bc_pre(emit, -1);
emit_write_byte_code_byte_qstr(emit, MP_BC_STORE_GLOBAL, qstr);
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}
STATIC void emit_bc_store_attr(emit_t *emit, qstr qstr) {
emit_bc_pre(emit, -2);
emit_write_byte_code_byte_qstr(emit, MP_BC_STORE_ATTR, qstr);
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}
STATIC void emit_bc_store_subscr(emit_t *emit) {
emit_bc_pre(emit, -3);
emit_write_byte_code_byte(emit, MP_BC_STORE_SUBSCR);
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}
STATIC void emit_bc_delete_fast(emit_t *emit, qstr qstr, int local_num) {
emit_write_byte_code_byte_uint(emit, MP_BC_DELETE_FAST, local_num);
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}
STATIC void emit_bc_delete_deref(emit_t *emit, qstr qstr, int local_num) {
emit_write_byte_code_byte_uint(emit, MP_BC_DELETE_DEREF, local_num);
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}
STATIC void emit_bc_delete_name(emit_t *emit, qstr qstr) {
emit_bc_pre(emit, 0);
emit_write_byte_code_byte_qstr(emit, MP_BC_DELETE_NAME, qstr);
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}
STATIC void emit_bc_delete_global(emit_t *emit, qstr qstr) {
emit_bc_pre(emit, 0);
emit_write_byte_code_byte_qstr(emit, MP_BC_DELETE_GLOBAL, qstr);
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}
STATIC void emit_bc_delete_attr(emit_t *emit, qstr qstr) {
emit_bc_load_null(emit);
emit_bc_rot_two(emit);
emit_bc_store_attr(emit, qstr);
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}
STATIC void emit_bc_delete_subscr(emit_t *emit) {
emit_bc_load_null(emit);
emit_bc_rot_three(emit);
emit_bc_store_subscr(emit);
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}
STATIC void emit_bc_dup_top(emit_t *emit) {
emit_bc_pre(emit, 1);
emit_write_byte_code_byte(emit, MP_BC_DUP_TOP);
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}
STATIC void emit_bc_dup_top_two(emit_t *emit) {
emit_bc_pre(emit, 2);
emit_write_byte_code_byte(emit, MP_BC_DUP_TOP_TWO);
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}
STATIC void emit_bc_pop_top(emit_t *emit) {
emit_bc_pre(emit, -1);
emit_write_byte_code_byte(emit, MP_BC_POP_TOP);
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}
STATIC void emit_bc_rot_two(emit_t *emit) {
emit_bc_pre(emit, 0);
emit_write_byte_code_byte(emit, MP_BC_ROT_TWO);
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}
STATIC void emit_bc_rot_three(emit_t *emit) {
emit_bc_pre(emit, 0);
emit_write_byte_code_byte(emit, MP_BC_ROT_THREE);
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}
STATIC void emit_bc_jump(emit_t *emit, uint label) {
emit_bc_pre(emit, 0);
emit_write_byte_code_byte_signed_label(emit, MP_BC_JUMP, label);
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}
STATIC void emit_bc_pop_jump_if_true(emit_t *emit, uint label) {
emit_bc_pre(emit, -1);
emit_write_byte_code_byte_signed_label(emit, MP_BC_POP_JUMP_IF_TRUE, label);
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}
STATIC void emit_bc_pop_jump_if_false(emit_t *emit, uint label) {
emit_bc_pre(emit, -1);
emit_write_byte_code_byte_signed_label(emit, MP_BC_POP_JUMP_IF_FALSE, label);
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}
STATIC void emit_bc_jump_if_true_or_pop(emit_t *emit, uint label) {
emit_bc_pre(emit, -1);
emit_write_byte_code_byte_signed_label(emit, MP_BC_JUMP_IF_TRUE_OR_POP, label);
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}
STATIC void emit_bc_jump_if_false_or_pop(emit_t *emit, uint label) {
emit_bc_pre(emit, -1);
emit_write_byte_code_byte_signed_label(emit, MP_BC_JUMP_IF_FALSE_OR_POP, label);
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}
STATIC void emit_bc_setup_loop(emit_t *emit, uint label) {
emit_bc_pre(emit, 0);
emit_write_byte_code_byte_unsigned_label(emit, MP_BC_SETUP_LOOP, label);
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}
STATIC void emit_bc_unwind_jump(emit_t *emit, uint label, int except_depth) {
if (except_depth == 0) {
emit_bc_jump(emit, label);
} else {
emit_bc_pre(emit, 0);
emit_write_byte_code_byte_signed_label(emit, MP_BC_UNWIND_JUMP, label);
emit_write_byte_code_byte(emit, except_depth);
}
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}
STATIC void emit_bc_setup_with(emit_t *emit, uint label) {
emit_bc_pre(emit, 7);
emit_write_byte_code_byte_unsigned_label(emit, MP_BC_SETUP_WITH, label);
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}
STATIC void emit_bc_with_cleanup(emit_t *emit) {
emit_bc_pre(emit, -7);
emit_write_byte_code_byte(emit, MP_BC_WITH_CLEANUP);
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}
STATIC void emit_bc_setup_except(emit_t *emit, uint label) {
emit_bc_pre(emit, 0);
emit_write_byte_code_byte_unsigned_label(emit, MP_BC_SETUP_EXCEPT, label);
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}
STATIC void emit_bc_setup_finally(emit_t *emit, uint label) {
emit_bc_pre(emit, 0);
emit_write_byte_code_byte_unsigned_label(emit, MP_BC_SETUP_FINALLY, label);
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}
STATIC void emit_bc_end_finally(emit_t *emit) {
emit_bc_pre(emit, -1);
emit_write_byte_code_byte(emit, MP_BC_END_FINALLY);
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}
STATIC void emit_bc_get_iter(emit_t *emit) {
emit_bc_pre(emit, 0);
emit_write_byte_code_byte(emit, MP_BC_GET_ITER);
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}
STATIC void emit_bc_for_iter(emit_t *emit, uint label) {
emit_bc_pre(emit, 1);
emit_write_byte_code_byte_unsigned_label(emit, MP_BC_FOR_ITER, label);
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}
STATIC void emit_bc_for_iter_end(emit_t *emit) {
emit_bc_pre(emit, -1);
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}
STATIC void emit_bc_pop_block(emit_t *emit) {
emit_bc_pre(emit, 0);
emit_write_byte_code_byte(emit, MP_BC_POP_BLOCK);
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}
STATIC void emit_bc_pop_except(emit_t *emit) {
emit_bc_pre(emit, 0);
emit_write_byte_code_byte(emit, MP_BC_POP_EXCEPT);
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}
STATIC void emit_bc_unary_op(emit_t *emit, mp_unary_op_t op) {
if (op == MP_UNARY_OP_NOT) {
emit_bc_pre(emit, 0);
emit_write_byte_code_byte_byte(emit, MP_BC_UNARY_OP, MP_UNARY_OP_BOOL);
emit_bc_pre(emit, 0);
emit_write_byte_code_byte(emit, MP_BC_NOT);
} else {
emit_bc_pre(emit, 0);
emit_write_byte_code_byte_byte(emit, MP_BC_UNARY_OP, op);
}
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}
STATIC void emit_bc_binary_op(emit_t *emit, mp_binary_op_t op) {
bool invert = false;
if (op == MP_BINARY_OP_NOT_IN) {
invert = true;
op = MP_BINARY_OP_IN;
} else if (op == MP_BINARY_OP_IS_NOT) {
invert = true;
op = MP_BINARY_OP_IS;
}
emit_bc_pre(emit, -1);
emit_write_byte_code_byte_byte(emit, MP_BC_BINARY_OP, op);
if (invert) {
emit_bc_pre(emit, 0);
emit_write_byte_code_byte(emit, MP_BC_NOT);
}
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}
STATIC void emit_bc_build_tuple(emit_t *emit, int n_args) {
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assert(n_args >= 0);
emit_bc_pre(emit, 1 - n_args);
emit_write_byte_code_byte_uint(emit, MP_BC_BUILD_TUPLE, n_args);
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}
STATIC void emit_bc_build_list(emit_t *emit, int n_args) {
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assert(n_args >= 0);
emit_bc_pre(emit, 1 - n_args);
emit_write_byte_code_byte_uint(emit, MP_BC_BUILD_LIST, n_args);
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}
STATIC void emit_bc_list_append(emit_t *emit, int list_stack_index) {
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assert(list_stack_index >= 0);
emit_bc_pre(emit, -1);
emit_write_byte_code_byte_uint(emit, MP_BC_LIST_APPEND, list_stack_index);
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}
STATIC void emit_bc_build_map(emit_t *emit, int n_args) {
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assert(n_args >= 0);
emit_bc_pre(emit, 1);
emit_write_byte_code_byte_uint(emit, MP_BC_BUILD_MAP, n_args);
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}
STATIC void emit_bc_store_map(emit_t *emit) {
emit_bc_pre(emit, -2);
emit_write_byte_code_byte(emit, MP_BC_STORE_MAP);
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}
STATIC void emit_bc_map_add(emit_t *emit, int map_stack_index) {
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assert(map_stack_index >= 0);
emit_bc_pre(emit, -2);
emit_write_byte_code_byte_uint(emit, MP_BC_MAP_ADD, map_stack_index);
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}
STATIC void emit_bc_build_set(emit_t *emit, int n_args) {
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assert(n_args >= 0);
emit_bc_pre(emit, 1 - n_args);
emit_write_byte_code_byte_uint(emit, MP_BC_BUILD_SET, n_args);
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}
STATIC void emit_bc_set_add(emit_t *emit, int set_stack_index) {
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assert(set_stack_index >= 0);
emit_bc_pre(emit, -1);
emit_write_byte_code_byte_uint(emit, MP_BC_SET_ADD, set_stack_index);
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}
STATIC void emit_bc_build_slice(emit_t *emit, int n_args) {
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assert(n_args >= 0);
emit_bc_pre(emit, 1 - n_args);
emit_write_byte_code_byte_uint(emit, MP_BC_BUILD_SLICE, n_args);
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}
STATIC void emit_bc_unpack_sequence(emit_t *emit, int n_args) {
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assert(n_args >= 0);
emit_bc_pre(emit, -1 + n_args);
emit_write_byte_code_byte_uint(emit, MP_BC_UNPACK_SEQUENCE, n_args);
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}
STATIC void emit_bc_unpack_ex(emit_t *emit, int n_left, int n_right) {
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assert(n_left >=0 && n_right >= 0);
emit_bc_pre(emit, -1 + n_left + n_right + 1);
emit_write_byte_code_byte_uint(emit, MP_BC_UNPACK_EX, n_left | (n_right << 8));
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}
STATIC void emit_bc_make_function(emit_t *emit, scope_t *scope, uint n_pos_defaults, uint n_kw_defaults) {
if (n_pos_defaults == 0 && n_kw_defaults == 0) {
emit_bc_pre(emit, 1);
emit_write_byte_code_byte_uint(emit, MP_BC_MAKE_FUNCTION, scope->unique_code_id);
} else {
if (n_pos_defaults == 0) {
// load dummy entry for non-existent positional default tuple
emit_bc_load_null(emit);
} else if (n_kw_defaults == 0) {
// load dummy entry for non-existent keyword default dict
emit_bc_load_null(emit);
emit_bc_rot_two(emit);
}
emit_bc_pre(emit, -1);
emit_write_byte_code_byte_uint(emit, MP_BC_MAKE_FUNCTION_DEFARGS, scope->unique_code_id);
}
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}
STATIC void emit_bc_make_closure(emit_t *emit, scope_t *scope, uint n_pos_defaults, uint n_kw_defaults) {
if (n_pos_defaults == 0 && n_kw_defaults == 0) {
emit_bc_pre(emit, 0);
emit_write_byte_code_byte_uint(emit, MP_BC_MAKE_CLOSURE, scope->unique_code_id);
} else {
if (n_pos_defaults == 0) {
// load dummy entry for non-existent positional default tuple
emit_bc_load_null(emit);
emit_bc_rot_two(emit);
} else if (n_kw_defaults == 0) {
// load dummy entry for non-existent keyword default dict
emit_bc_load_null(emit);
emit_bc_rot_three(emit);
}
emit_bc_pre(emit, -2);
emit_write_byte_code_byte_uint(emit, MP_BC_MAKE_CLOSURE_DEFARGS, scope->unique_code_id);
}
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}
STATIC void emit_bc_call_function_method_helper(emit_t *emit, int stack_adj, uint bytecode_base, int n_positional, int n_keyword, uint star_flags) {
if (star_flags) {
if (!(star_flags & MP_EMIT_STAR_FLAG_SINGLE)) {
// load dummy entry for non-existent pos_seq
emit_bc_load_null(emit);
emit_bc_rot_two(emit);
} else if (!(star_flags & MP_EMIT_STAR_FLAG_DOUBLE)) {
// load dummy entry for non-existent kw_dict
emit_bc_load_null(emit);
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}
emit_bc_pre(emit, stack_adj - n_positional - 2 * n_keyword - 2);
emit_write_byte_code_byte_uint(emit, bytecode_base + 1, (n_keyword << 8) | n_positional); // TODO make it 2 separate uints?
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} else {
emit_bc_pre(emit, stack_adj - n_positional - 2 * n_keyword);
emit_write_byte_code_byte_uint(emit, bytecode_base, (n_keyword << 8) | n_positional); // TODO make it 2 separate uints?
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}
}
STATIC void emit_bc_call_function(emit_t *emit, int n_positional, int n_keyword, uint star_flags) {
emit_bc_call_function_method_helper(emit, 0, MP_BC_CALL_FUNCTION, n_positional, n_keyword, star_flags);
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}
STATIC void emit_bc_call_method(emit_t *emit, int n_positional, int n_keyword, uint star_flags) {
emit_bc_call_function_method_helper(emit, -1, MP_BC_CALL_METHOD, n_positional, n_keyword, star_flags);
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}
STATIC void emit_bc_return_value(emit_t *emit) {
emit_bc_pre(emit, -1);
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emit->last_emit_was_return_value = true;
emit_write_byte_code_byte(emit, MP_BC_RETURN_VALUE);
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}
STATIC void emit_bc_raise_varargs(emit_t *emit, int n_args) {
assert(0 <= n_args && n_args <= 2);
emit_bc_pre(emit, -n_args);
emit_write_byte_code_byte_byte(emit, MP_BC_RAISE_VARARGS, n_args);
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}
STATIC void emit_bc_yield_value(emit_t *emit) {
emit_bc_pre(emit, 0);
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if (emit->pass == PASS_2) {
emit->scope->scope_flags |= MP_SCOPE_FLAG_GENERATOR;
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}
emit_write_byte_code_byte(emit, MP_BC_YIELD_VALUE);
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}
STATIC void emit_bc_yield_from(emit_t *emit) {
emit_bc_pre(emit, -1);
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if (emit->pass == PASS_2) {
emit->scope->scope_flags |= MP_SCOPE_FLAG_GENERATOR;
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}
emit_write_byte_code_byte(emit, MP_BC_YIELD_FROM);
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}
const emit_method_table_t emit_bc_method_table = {
emit_bc_set_native_types,
emit_bc_start_pass,
emit_bc_end_pass,
emit_bc_last_emit_was_return_value,
emit_bc_get_stack_size,
emit_bc_set_stack_size,
emit_bc_set_source_line,
emit_bc_load_id,
emit_bc_store_id,
emit_bc_delete_id,
emit_bc_label_assign,
emit_bc_import_name,
emit_bc_import_from,
emit_bc_import_star,
emit_bc_load_const_tok,
emit_bc_load_const_small_int,
emit_bc_load_const_int,
emit_bc_load_const_dec,
emit_bc_load_const_id,
emit_bc_load_const_str,
emit_bc_load_const_verbatim_str,
emit_bc_load_fast,
emit_bc_load_deref,
emit_bc_load_closure,
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emit_bc_load_name,
emit_bc_load_global,
emit_bc_load_attr,
emit_bc_load_method,
emit_bc_load_build_class,
emit_bc_store_fast,
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emit_bc_store_deref,
emit_bc_store_name,
emit_bc_store_global,
emit_bc_store_attr,
emit_bc_store_subscr,
emit_bc_delete_fast,
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emit_bc_delete_deref,
emit_bc_delete_name,
emit_bc_delete_global,
emit_bc_delete_attr,
emit_bc_delete_subscr,
emit_bc_dup_top,
emit_bc_dup_top_two,
emit_bc_pop_top,
emit_bc_rot_two,
emit_bc_rot_three,
emit_bc_jump,
emit_bc_pop_jump_if_true,
emit_bc_pop_jump_if_false,
emit_bc_jump_if_true_or_pop,
emit_bc_jump_if_false_or_pop,
emit_bc_setup_loop,
emit_bc_unwind_jump,
emit_bc_unwind_jump,
emit_bc_setup_with,
emit_bc_with_cleanup,
emit_bc_setup_except,
emit_bc_setup_finally,
emit_bc_end_finally,
emit_bc_get_iter,
emit_bc_for_iter,
emit_bc_for_iter_end,
emit_bc_pop_block,
emit_bc_pop_except,
emit_bc_unary_op,
emit_bc_binary_op,
emit_bc_build_tuple,
emit_bc_build_list,
emit_bc_list_append,
emit_bc_build_map,
emit_bc_store_map,
emit_bc_map_add,
emit_bc_build_set,
emit_bc_set_add,
emit_bc_build_slice,
emit_bc_unpack_sequence,
emit_bc_unpack_ex,
emit_bc_make_function,
emit_bc_make_closure,
emit_bc_call_function,
emit_bc_call_method,
emit_bc_return_value,
emit_bc_raise_varargs,
emit_bc_yield_value,
emit_bc_yield_from,
};