emitnative.c 65.8 KB
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/*
 * This file is part of the Micro Python project, http://micropython.org/
 *
 * The MIT License (MIT)
 *
 * Copyright (c) 2013, 2014 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.
 */

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// Essentially normal Python has 1 type: Python objects
// Viper has more than 1 type, and is just a more complicated (a superset of) Python.
// If you declare everything in Viper as a Python object (ie omit type decls) then
// it should in principle be exactly the same as Python native.
// Having types means having more opcodes, like binary_op_nat_nat, binary_op_nat_obj etc.
// In practice we won't have a VM but rather do this in asm which is actually very minimal.

// Because it breaks strict Python equivalence it should be a completely separate
// decorator.  It breaks equivalence because overflow on integers wraps around.
// It shouldn't break equivalence if you don't use the new types, but since the
// type decls might be used in normal Python for other reasons, it's probably safest,
// cleanest and clearest to make it a separate decorator.

// Actually, it does break equivalence because integers default to native integers,
// not Python objects.

// for x in l[0:8]: can be compiled into a native loop if l has pointer type

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#include <stdbool.h>
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#include <stdint.h>
#include <stdio.h>
#include <string.h>
#include <assert.h>

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#include "mpconfig.h"
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#include "nlr.h"
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#include "misc.h"
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#include "qstr.h"
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#include "lexer.h"
#include "parse.h"
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#include "obj.h"
#include "emitglue.h"
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#include "scope.h"
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#include "runtime0.h"
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#include "emit.h"
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#include "runtime.h"
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#if 0 // print debugging info
#define DEBUG_PRINT (1)
#define DEBUG_printf DEBUG_printf
#else // don't print debugging info
#define DEBUG_printf(...) (void)0
#endif

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// wrapper around everything in this file
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#if (MICROPY_EMIT_X64 && N_X64) \
    || (MICROPY_EMIT_X86 && N_X86) \
    || (MICROPY_EMIT_THUMB && N_THUMB) \
    || (MICROPY_EMIT_ARM && N_ARM)
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#if N_X64
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// x64 specific stuff

#include "asmx64.h"

#define EXPORT_FUN(name) emit_native_x64_##name

#define REG_TEMP0 (REG_RAX)
#define REG_TEMP1 (REG_RDI)
#define REG_TEMP2 (REG_RSI)
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#define REG_LOCAL_1 (REG_RBX)
#define REG_LOCAL_NUM (1)

#define ASM_PASS_COMPUTE    ASM_X64_PASS_COMPUTE
#define ASM_PASS_EMIT       ASM_X64_PASS_EMIT

#define ASM_T               asm_x64_t
#define ASM_NEW             asm_x64_new
#define ASM_FREE            asm_x64_free
#define ASM_GET_CODE        asm_x64_get_code
#define ASM_GET_CODE_SIZE   asm_x64_get_code_size
#define ASM_START_PASS      asm_x64_start_pass
#define ASM_END_PASS        asm_x64_end_pass
#define ASM_ENTRY           asm_x64_entry
#define ASM_EXIT            asm_x64_exit

#define ASM_LABEL_ASSIGN    asm_x64_label_assign
#define ASM_JUMP            asm_x64_jmp_label
#define ASM_JUMP_IF_REG_ZERO(as, reg, label) \
    do { \
        asm_x64_test_r8_with_r8(as, reg, reg); \
        asm_x64_jcc_label(as, ASM_X64_CC_JZ, label); \
    } while (0)
#define ASM_JUMP_IF_REG_NONZERO(as, reg, label) \
    do { \
        asm_x64_test_r8_with_r8(as, reg, reg); \
        asm_x64_jcc_label(as, ASM_X64_CC_JNZ, label); \
    } while (0)
#define ASM_JUMP_IF_REG_EQ(as, reg1, reg2, label) \
    do { \
        asm_x64_cmp_r64_with_r64(as, reg1, reg2); \
        asm_x64_jcc_label(as, ASM_X64_CC_JE, label); \
    } while (0)
#define ASM_CALL_IND(as, ptr, idx) asm_x64_call_ind(as, ptr, REG_RAX)

#define ASM_MOV_REG_TO_LOCAL        asm_x64_mov_r64_to_local
#define ASM_MOV_IMM_TO_REG          asm_x64_mov_i64_to_r64_optimised
#define ASM_MOV_ALIGNED_IMM_TO_REG  asm_x64_mov_i64_to_r64_aligned
#define ASM_MOV_IMM_TO_LOCAL_USING(as, imm, local_num, reg_temp) \
    do { \
        asm_x64_mov_i64_to_r64_optimised(as, (imm), (reg_temp)); \
        asm_x64_mov_r64_to_local(as, (reg_temp), (local_num)); \
    } while (false)
#define ASM_MOV_LOCAL_TO_REG        asm_x64_mov_local_to_r64
#define ASM_MOV_REG_TO_REG          asm_x64_mov_r64_to_r64
#define ASM_MOV_LOCAL_ADDR_TO_REG   asm_x64_mov_local_addr_to_r64

#elif N_X86

// x86 specific stuff

#include "asmx86.h"

STATIC byte mp_f_n_args[MP_F_NUMBER_OF] = {
    [MP_F_CONVERT_OBJ_TO_NATIVE] = 2,
    [MP_F_CONVERT_NATIVE_TO_OBJ] = 2,
    [MP_F_LOAD_CONST_INT] = 1,
    [MP_F_LOAD_CONST_DEC] = 1,
    [MP_F_LOAD_CONST_STR] = 1,
    [MP_F_LOAD_CONST_BYTES] = 1,
    [MP_F_LOAD_NAME] = 1,
    [MP_F_LOAD_GLOBAL] = 1,
    [MP_F_LOAD_BUILD_CLASS] = 0,
    [MP_F_LOAD_ATTR] = 2,
    [MP_F_LOAD_METHOD] = 3,
    [MP_F_STORE_NAME] = 2,
    [MP_F_STORE_GLOBAL] = 2,
    [MP_F_STORE_ATTR] = 3,
    [MP_F_OBJ_SUBSCR] = 3,
    [MP_F_OBJ_IS_TRUE] = 1,
    [MP_F_UNARY_OP] = 2,
    [MP_F_BINARY_OP] = 3,
    [MP_F_BUILD_TUPLE] = 2,
    [MP_F_BUILD_LIST] = 2,
    [MP_F_LIST_APPEND] = 2,
    [MP_F_BUILD_MAP] = 1,
    [MP_F_STORE_MAP] = 3,
#if MICROPY_PY_BUILTINS_SET
    [MP_F_BUILD_SET] = 2,
    [MP_F_STORE_SET] = 2,
#endif
    [MP_F_MAKE_FUNCTION_FROM_RAW_CODE] = 3,
    [MP_F_NATIVE_CALL_FUNCTION_N_KW] = 3,
    [MP_F_CALL_METHOD_N_KW] = 3,
    [MP_F_GETITER] = 1,
    [MP_F_ITERNEXT] = 1,
    [MP_F_NLR_PUSH] = 1,
    [MP_F_NLR_POP] = 0,
    [MP_F_NATIVE_RAISE] = 1,
    [MP_F_IMPORT_NAME] = 3,
    [MP_F_IMPORT_FROM] = 2,
    [MP_F_IMPORT_ALL] = 1,
#if MICROPY_PY_BUILTINS_SLICE
    [MP_F_NEW_SLICE] = 3,
#endif
    [MP_F_UNPACK_SEQUENCE] = 3,
    [MP_F_UNPACK_EX] = 3,
    [MP_F_DELETE_NAME] = 1,
    [MP_F_DELETE_GLOBAL] = 1,
};

#define EXPORT_FUN(name) emit_native_x86_##name

#define REG_TEMP0 (REG_EAX)
#define REG_TEMP1 (REG_EDI)
#define REG_TEMP2 (REG_ESI)

#define REG_LOCAL_1 (REG_EBX)
#define REG_LOCAL_NUM (1)

#define ASM_PASS_COMPUTE    ASM_X86_PASS_COMPUTE
#define ASM_PASS_EMIT       ASM_X86_PASS_EMIT

#define ASM_T               asm_x86_t
#define ASM_NEW             asm_x86_new
#define ASM_FREE            asm_x86_free
#define ASM_GET_CODE        asm_x86_get_code
#define ASM_GET_CODE_SIZE   asm_x86_get_code_size
#define ASM_START_PASS      asm_x86_start_pass
#define ASM_END_PASS        asm_x86_end_pass
#define ASM_ENTRY           asm_x86_entry
#define ASM_EXIT            asm_x86_exit

#define ASM_LABEL_ASSIGN    asm_x86_label_assign
#define ASM_JUMP            asm_x86_jmp_label
#define ASM_JUMP_IF_REG_ZERO(as, reg, label) \
    do { \
        asm_x86_test_r8_with_r8(as, reg, reg); \
        asm_x86_jcc_label(as, ASM_X86_CC_JZ, label); \
    } while (0)
#define ASM_JUMP_IF_REG_NONZERO(as, reg, label) \
    do { \
        asm_x86_test_r8_with_r8(as, reg, reg); \
        asm_x86_jcc_label(as, ASM_X86_CC_JNZ, label); \
    } while (0)
#define ASM_JUMP_IF_REG_EQ(as, reg1, reg2, label) \
    do { \
        asm_x86_cmp_r32_with_r32(as, reg1, reg2); \
        asm_x86_jcc_label(as, ASM_X86_CC_JE, label); \
    } while (0)
#define ASM_CALL_IND(as, ptr, idx) asm_x86_call_ind(as, ptr, mp_f_n_args[idx], REG_EAX)

#define ASM_MOV_REG_TO_LOCAL        asm_x86_mov_r32_to_local
#define ASM_MOV_IMM_TO_REG          asm_x86_mov_i32_to_r32
#define ASM_MOV_ALIGNED_IMM_TO_REG  asm_x86_mov_i32_to_r32_aligned
#define ASM_MOV_IMM_TO_LOCAL_USING(as, imm, local_num, reg_temp) \
    do { \
        asm_x86_mov_i32_to_r32(as, (imm), (reg_temp)); \
        asm_x86_mov_r32_to_local(as, (reg_temp), (local_num)); \
    } while (false)
#define ASM_MOV_LOCAL_TO_REG        asm_x86_mov_local_to_r32
#define ASM_MOV_REG_TO_REG          asm_x86_mov_r32_to_r32
#define ASM_MOV_LOCAL_ADDR_TO_REG   asm_x86_mov_local_addr_to_r32
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#elif N_THUMB
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// thumb specific stuff

#include "asmthumb.h"

#define EXPORT_FUN(name) emit_native_thumb_##name

#define REG_TEMP0 (REG_R0)
#define REG_TEMP1 (REG_R1)
#define REG_TEMP2 (REG_R2)
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#define REG_LOCAL_1 (REG_R4)
#define REG_LOCAL_2 (REG_R5)
#define REG_LOCAL_3 (REG_R6)
#define REG_LOCAL_NUM (3)

#define ASM_PASS_COMPUTE    ASM_THUMB_PASS_COMPUTE
#define ASM_PASS_EMIT       ASM_THUMB_PASS_EMIT

#define ASM_T               asm_thumb_t
#define ASM_NEW             asm_thumb_new
#define ASM_FREE            asm_thumb_free
#define ASM_GET_CODE        asm_thumb_get_code
#define ASM_GET_CODE_SIZE   asm_thumb_get_code_size
#define ASM_START_PASS      asm_thumb_start_pass
#define ASM_END_PASS        asm_thumb_end_pass
#define ASM_ENTRY           asm_thumb_entry
#define ASM_EXIT            asm_thumb_exit

#define ASM_LABEL_ASSIGN    asm_thumb_label_assign
#define ASM_JUMP            asm_thumb_b_label
#define ASM_JUMP_IF_REG_ZERO(as, reg, label) \
    do { \
        asm_thumb_cmp_rlo_i8(as, reg, 0); \
        asm_thumb_bcc_label(as, THUMB_CC_EQ, label); \
    } while (0)
#define ASM_JUMP_IF_REG_NONZERO(as, reg, label) \
    do { \
        asm_thumb_cmp_rlo_i8(as, reg, 0); \
        asm_thumb_bcc_label(as, THUMB_CC_NE, label); \
    } while (0)
#define ASM_JUMP_IF_REG_EQ(as, reg1, reg2, label) \
    do { \
        asm_thumb_cmp_rlo_rlo(as, reg1, reg2); \
        asm_thumb_bcc_label(as, THUMB_CC_EQ, label); \
    } while (0)
#define ASM_CALL_IND(as, ptr, idx) asm_thumb_bl_ind(as, ptr, idx, REG_R3)

#define ASM_MOV_REG_TO_LOCAL(as, reg, local_num) asm_thumb_mov_local_reg(as, (local_num), (reg))
#define ASM_MOV_IMM_TO_REG(as, imm, reg) asm_thumb_mov_reg_i32_optimised(as, (reg), (imm))
#define ASM_MOV_ALIGNED_IMM_TO_REG(as, imm, reg) asm_thumb_mov_reg_i32_aligned(as, (reg), (imm))
#define ASM_MOV_IMM_TO_LOCAL_USING(as, imm, local_num, reg_temp) \
    do { \
        asm_thumb_mov_reg_i32_optimised(as, (reg_temp), (imm)); \
        asm_thumb_mov_local_reg(as, (local_num), (reg_temp)); \
    } while (false)
#define ASM_MOV_LOCAL_TO_REG(as, local_num, reg) asm_thumb_mov_reg_local(as, (reg), (local_num))
#define ASM_MOV_REG_TO_REG(as, reg_src, reg_dest) asm_thumb_mov_reg_reg(as, (reg_dest), (reg_src))
#define ASM_MOV_LOCAL_ADDR_TO_REG(as, local_num, reg) asm_thumb_mov_reg_local_addr(as, (reg), (local_num))
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#elif N_ARM

// ARM specific stuff

#include "asmarm.h"

#define EXPORT_FUN(name) emit_native_arm_##name

#define REG_TEMP0 (REG_R0)
#define REG_TEMP1 (REG_R1)
#define REG_TEMP2 (REG_R2)
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#define REG_LOCAL_1 (REG_R4)
#define REG_LOCAL_2 (REG_R5)
#define REG_LOCAL_3 (REG_R6)
#define REG_LOCAL_NUM (3)

#define ASM_PASS_COMPUTE    ASM_ARM_PASS_COMPUTE
#define ASM_PASS_EMIT       ASM_ARM_PASS_EMIT

#define ASM_T               asm_arm_t
#define ASM_NEW             asm_arm_new
#define ASM_FREE            asm_arm_free
#define ASM_GET_CODE        asm_arm_get_code
#define ASM_GET_CODE_SIZE   asm_arm_get_code_size
#define ASM_START_PASS      asm_arm_start_pass
#define ASM_END_PASS        asm_arm_end_pass
#define ASM_ENTRY           asm_arm_entry
#define ASM_EXIT            asm_arm_exit

#define ASM_LABEL_ASSIGN    asm_arm_label_assign
#define ASM_JUMP            asm_arm_b_label
#define ASM_JUMP_IF_REG_ZERO(as, reg, label) \
    do { \
        asm_arm_cmp_reg_i8(as, reg, 0); \
        asm_arm_bcc_label(as, ARM_CC_EQ, label); \
    } while (0)
#define ASM_JUMP_IF_REG_NONZERO(as, reg, label) \
    do { \
        asm_arm_cmp_reg_i8(as, reg, 0); \
        asm_arm_bcc_label(as, ARM_CC_NE, label); \
    } while (0)
#define ASM_JUMP_IF_REG_EQ(as, reg1, reg2, label) \
    do { \
        asm_arm_cmp_reg_reg(as, reg1, reg2); \
        asm_arm_bcc_label(as, ARM_CC_EQ, label); \
    } while (0)
#define ASM_CALL_IND(as, ptr, idx) asm_arm_bl_ind(as, ptr, idx, REG_R3)

#define ASM_MOV_REG_TO_LOCAL(as, reg, local_num) asm_arm_mov_local_reg(as, (local_num), (reg))
#define ASM_MOV_IMM_TO_REG(as, imm, reg) asm_arm_mov_reg_i32(as, (reg), (imm))
#define ASM_MOV_ALIGNED_IMM_TO_REG(as, imm, reg) asm_arm_mov_reg_i32(as, (reg), (imm))
#define ASM_MOV_IMM_TO_LOCAL_USING(as, imm, local_num, reg_temp) \
    do { \
        asm_arm_mov_reg_i32(as, (reg_temp), (imm)); \
        asm_arm_mov_local_reg(as, (local_num), (reg_temp)); \
    } while (false)
#define ASM_MOV_LOCAL_TO_REG(as, local_num, reg) asm_arm_mov_reg_local(as, (reg), (local_num))
#define ASM_MOV_REG_TO_REG(as, reg_src, reg_dest) asm_arm_mov_reg_reg(as, (reg_dest), (reg_src))
#define ASM_MOV_LOCAL_ADDR_TO_REG(as, local_num, reg) asm_arm_mov_reg_local_addr(as, (reg), (local_num))

#else

#error unknown native emitter
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#endif

typedef enum {
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    STACK_VALUE,
    STACK_REG,
    STACK_IMM,
} stack_info_kind_t;
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typedef enum {
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    VTYPE_PYOBJ = MP_NATIVE_TYPE_OBJ,
    VTYPE_BOOL = MP_NATIVE_TYPE_BOOL,
    VTYPE_INT = MP_NATIVE_TYPE_INT,
    VTYPE_UINT = MP_NATIVE_TYPE_UINT,
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    VTYPE_UNBOUND,
    VTYPE_PTR,
    VTYPE_PTR_NONE,
    VTYPE_BUILTIN_V_INT,
} vtype_kind_t;

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typedef struct _stack_info_t {
    vtype_kind_t vtype;
    stack_info_kind_t kind;
    union {
        int u_reg;
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        mp_int_t u_imm;
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    };
} stack_info_t;

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struct _emit_t {
    int pass;

    bool do_viper_types;
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    vtype_kind_t return_vtype;

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    uint local_vtype_alloc;
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    vtype_kind_t *local_vtype;
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    uint stack_info_alloc;
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    stack_info_t *stack_info;

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    int stack_start;
    int stack_size;

    bool last_emit_was_return_value;

    scope_t *scope;

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    ASM_T *as;
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};

emit_t *EXPORT_FUN(new)(uint max_num_labels) {
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    emit_t *emit = m_new0(emit_t, 1);
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    emit->as = ASM_NEW(max_num_labels);
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    return emit;
}

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void EXPORT_FUN(free)(emit_t *emit) {
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    ASM_FREE(emit->as, false);
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    m_del(vtype_kind_t, emit->local_vtype, emit->local_vtype_alloc);
    m_del(stack_info_t, emit->stack_info, emit->stack_info_alloc);
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    m_del_obj(emit_t, emit);
}

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STATIC void emit_native_set_native_type(emit_t *emit, mp_uint_t op, mp_uint_t arg1, qstr arg2) {
    switch (op) {
        case MP_EMIT_NATIVE_TYPE_ENABLE:
            emit->do_viper_types = arg1;
            break;

        default: {
            vtype_kind_t type;
            switch (arg2) {
                case MP_QSTR_object: type = VTYPE_PYOBJ; break;
                case MP_QSTR_bool: type = VTYPE_BOOL; break;
                case MP_QSTR_int: type = VTYPE_INT; break;
                case MP_QSTR_uint: type = VTYPE_UINT; break;
                default: printf("ViperTypeError: unknown type %s\n", qstr_str(arg2)); return;
            }
            if (op == MP_EMIT_NATIVE_TYPE_RETURN) {
                emit->return_vtype = type;
            } else {
                assert(arg1 < emit->local_vtype_alloc);
                emit->local_vtype[arg1] = type;
            }
            break;
        }
    }
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}

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STATIC void emit_native_start_pass(emit_t *emit, pass_kind_t pass, scope_t *scope) {
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    emit->pass = pass;
    emit->stack_start = 0;
    emit->stack_size = 0;
    emit->last_emit_was_return_value = false;
    emit->scope = scope;

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    // allocate memory for keeping track of the types of locals
    if (emit->local_vtype_alloc < scope->num_locals) {
        emit->local_vtype = m_renew(vtype_kind_t, emit->local_vtype, emit->local_vtype_alloc, scope->num_locals);
        emit->local_vtype_alloc = scope->num_locals;
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    }
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    // allocate memory for keeping track of the objects on the stack
    // XXX don't know stack size on entry, and it should be maximum over all scopes
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    if (emit->stack_info == NULL) {
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        emit->stack_info_alloc = scope->stack_size + 50;
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        emit->stack_info = m_new(stack_info_t, emit->stack_info_alloc);
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    }

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    // set default type for return and arguments
    emit->return_vtype = VTYPE_PYOBJ;
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    for (mp_uint_t i = 0; i < emit->scope->num_pos_args; i++) {
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        emit->local_vtype[i] = VTYPE_PYOBJ;
    }
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    // local variables begin unbound, and have unknown type
    for (mp_uint_t i = emit->scope->num_pos_args; i < emit->local_vtype_alloc; i++) {
        emit->local_vtype[i] = VTYPE_UNBOUND;
    }

    // values on stack begin unbound
    for (mp_uint_t i = 0; i < emit->stack_info_alloc; i++) {
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        emit->stack_info[i].kind = STACK_VALUE;
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        emit->stack_info[i].vtype = VTYPE_UNBOUND;
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    }

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    ASM_START_PASS(emit->as, pass == MP_PASS_EMIT ? ASM_PASS_EMIT : ASM_PASS_COMPUTE);
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    // entry to function
    int num_locals = 0;
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    if (pass > MP_PASS_SCOPE) {
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        num_locals = scope->num_locals - REG_LOCAL_NUM;
        if (num_locals < 0) {
            num_locals = 0;
        }
        emit->stack_start = num_locals;
        num_locals += scope->stack_size;
    }
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    ASM_ENTRY(emit->as, num_locals);
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    // initialise locals from parameters
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#if N_X64
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    for (int i = 0; i < scope->num_pos_args; i++) {
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        if (i == 0) {
            asm_x64_mov_r64_to_r64(emit->as, REG_ARG_1, REG_LOCAL_1);
        } else if (i == 1) {
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            asm_x64_mov_r64_to_local(emit->as, REG_ARG_2, i - REG_LOCAL_NUM);
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        } else if (i == 2) {
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            asm_x64_mov_r64_to_local(emit->as, REG_ARG_3, i - REG_LOCAL_NUM);
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        } else {
            // TODO not implemented
            assert(0);
        }
    }
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#elif N_X86
    for (int i = 0; i < scope->num_pos_args; i++) {
        // TODO
        assert(0);
        if (i == 0) {
            asm_x86_mov_r32_to_r32(emit->as, REG_ARG_1, REG_LOCAL_1);
        } else if (i == 1) {
            asm_x86_mov_r32_to_local(emit->as, REG_ARG_2, i - REG_LOCAL_NUM);
        } else if (i == 2) {
            asm_x86_mov_r32_to_local(emit->as, REG_ARG_3, i - REG_LOCAL_NUM);
        } else {
            // TODO not implemented
            assert(0);
        }
    }
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#elif N_THUMB
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    for (int i = 0; i < scope->num_pos_args; i++) {
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        if (i == 0) {
            asm_thumb_mov_reg_reg(emit->as, REG_LOCAL_1, REG_ARG_1);
        } else if (i == 1) {
            asm_thumb_mov_reg_reg(emit->as, REG_LOCAL_2, REG_ARG_2);
        } else if (i == 2) {
            asm_thumb_mov_reg_reg(emit->as, REG_LOCAL_3, REG_ARG_3);
        } else if (i == 3) {
            asm_thumb_mov_local_reg(emit->as, i - REG_LOCAL_NUM, REG_ARG_4);
        } else {
            // TODO not implemented
            assert(0);
        }
    }

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    asm_thumb_mov_reg_i32(emit->as, REG_R7, (mp_uint_t)mp_fun_table);
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#elif N_ARM
    for (int i = 0; i < scope->num_pos_args; i++) {
        if (i == 0) {
            asm_arm_mov_reg_reg(emit->as, REG_LOCAL_1, REG_ARG_1);
        } else if (i == 1) {
            asm_arm_mov_reg_reg(emit->as, REG_LOCAL_2, REG_ARG_2);
        } else if (i == 2) {
            asm_arm_mov_reg_reg(emit->as, REG_LOCAL_3, REG_ARG_3);
        } else if (i == 3) {
            asm_arm_mov_local_reg(emit->as, i - REG_LOCAL_NUM, REG_ARG_4);
        } else {
            // TODO not implemented
            assert(0);
        }
    }

    asm_arm_mov_reg_i32(emit->as, REG_R7, (mp_uint_t)mp_fun_table);
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#else
    #error not implemented
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#endif
}

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STATIC void emit_native_end_pass(emit_t *emit) {
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    if (!emit->last_emit_was_return_value) {
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        ASM_EXIT(emit->as);
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    }
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    ASM_END_PASS(emit->as);
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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);
    }

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    if (emit->pass == MP_PASS_EMIT) {
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        void *f = ASM_GET_CODE(emit->as);
        mp_uint_t f_len = ASM_GET_CODE_SIZE(emit->as);
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        // compute type signature
        // TODO check that viper types here convert correctly to valid types for emit glue
        mp_uint_t type_sig = emit->return_vtype & 3;
        for (mp_uint_t i = 0; i < emit->scope->num_pos_args; i++) {
            type_sig |= (emit->local_vtype[i] & 3) << (i * 2 + 2);
        }

        mp_emit_glue_assign_native(emit->scope->raw_code, emit->do_viper_types ? MP_CODE_NATIVE_VIPER : MP_CODE_NATIVE_PY, f, f_len, emit->scope->num_pos_args, type_sig);
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    }
}

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STATIC bool emit_native_last_emit_was_return_value(emit_t *emit) {
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    return emit->last_emit_was_return_value;
}

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STATIC void emit_native_adjust_stack_size(emit_t *emit, int delta) {
    emit->stack_size += delta;
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}

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STATIC void emit_native_set_source_line(emit_t *emit, int source_line) {
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}

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STATIC void adjust_stack(emit_t *emit, int stack_size_delta) {
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    DEBUG_printf("adjust stack: stack:%d + delta:%d\n", emit->stack_size, stack_size_delta);
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    assert((int)emit->stack_size + stack_size_delta >= 0);
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    emit->stack_size += stack_size_delta;
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    if (emit->pass > MP_PASS_SCOPE && emit->stack_size > emit->scope->stack_size) {
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        emit->scope->stack_size = emit->stack_size;
    }
}

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/*
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STATIC void emit_pre_raw(emit_t *emit, int stack_size_delta) {
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    adjust_stack(emit, stack_size_delta);
    emit->last_emit_was_return_value = false;
}
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*/
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// this must be called at start of emit functions
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STATIC void emit_native_pre(emit_t *emit) {
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    emit->last_emit_was_return_value = false;
    // settle the stack
    /*
    if (regs_needed != 0) {
        for (int i = 0; i < emit->stack_size; i++) {
            switch (emit->stack_info[i].kind) {
                case STACK_VALUE:
                    break;

                case STACK_REG:
                    // TODO only push reg if in regs_needed
                    emit->stack_info[i].kind = STACK_VALUE;
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                    ASM_MOV_REG_TO_LOCAL(emit->as, emit->stack_info[i].u_reg, emit->stack_start + i);
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                    break;

                case STACK_IMM:
                    // don't think we ever need to push imms for settling
                    //ASM_MOV_IMM_TO_LOCAL(emit->last_imm, emit->stack_start + i);
                    break;
            }
        }
    }
    */
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}

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STATIC vtype_kind_t peek_vtype(emit_t *emit) {
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    return emit->stack_info[emit->stack_size - 1].vtype;
}
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// pos=1 is TOS, pos=2 is next, etc
// use pos=0 for no skipping
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STATIC void need_reg_single(emit_t *emit, int reg_needed, int skip_stack_pos) {
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    skip_stack_pos = emit->stack_size - skip_stack_pos;
    for (int i = 0; i < emit->stack_size; i++) {
        if (i != skip_stack_pos) {
            stack_info_t *si = &emit->stack_info[i];
            if (si->kind == STACK_REG && si->u_reg == reg_needed) {
                si->kind = STACK_VALUE;
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                ASM_MOV_REG_TO_LOCAL(emit->as, si->u_reg, emit->stack_start + i);
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            }
        }
    }
}

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STATIC void need_reg_all(emit_t *emit) {
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    for (int i = 0; i < emit->stack_size; i++) {
        stack_info_t *si = &emit->stack_info[i];
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        if (si->kind == STACK_REG) {
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            si->kind = STACK_VALUE;
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            ASM_MOV_REG_TO_LOCAL(emit->as, si->u_reg, emit->stack_start + i);
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        }
    }
}
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STATIC void need_stack_settled(emit_t *emit) {
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    for (int i = 0; i < emit->stack_size; i++) {
        stack_info_t *si = &emit->stack_info[i];
        if (si->kind == STACK_REG) {
            si->kind = STACK_VALUE;
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            ASM_MOV_REG_TO_LOCAL(emit->as, si->u_reg, emit->stack_start + i);
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        }
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    }
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    for (int i = 0; i < emit->stack_size; i++) {
        stack_info_t *si = &emit->stack_info[i];
        if (si->kind == STACK_IMM) {
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            si->kind = STACK_VALUE;
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            ASM_MOV_IMM_TO_LOCAL_USING(emit->as, si->u_imm, emit->stack_start + i, REG_TEMP0);
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        }
    }
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}

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// pos=1 is TOS, pos=2 is next, etc
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STATIC void emit_access_stack(emit_t *emit, int pos, vtype_kind_t *vtype, int reg_dest) {
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    need_reg_single(emit, reg_dest, pos);
    stack_info_t *si = &emit->stack_info[emit->stack_size - pos];
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    *vtype = si->vtype;
    switch (si->kind) {
        case STACK_VALUE:
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            ASM_MOV_LOCAL_TO_REG(emit->as, emit->stack_start + emit->stack_size - pos, reg_dest);
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            break;

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        case STACK_REG:
            if (si->u_reg != reg_dest) {
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                ASM_MOV_REG_TO_REG(emit->as, si->u_reg, reg_dest);
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            }
            break;

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        case STACK_IMM:
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            ASM_MOV_IMM_TO_REG(emit->as, si->u_imm, reg_dest);
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            break;
    }
}

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STATIC void emit_pre_pop_discard(emit_t *emit) {
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    emit->last_emit_was_return_value = false;
    adjust_stack(emit, -1);
}

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STATIC void emit_pre_pop_reg(emit_t *emit, vtype_kind_t *vtype, int reg_dest) {
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    emit->last_emit_was_return_value = false;
    emit_access_stack(emit, 1, vtype, reg_dest);
    adjust_stack(emit, -1);
}

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STATIC void emit_pre_pop_reg_reg(emit_t *emit, vtype_kind_t *vtypea, int rega, vtype_kind_t *vtypeb, int regb) {
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    emit_pre_pop_reg(emit, vtypea, rega);
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    emit_pre_pop_reg(emit, vtypeb, regb);
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}

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STATIC void emit_pre_pop_reg_reg_reg(emit_t *emit, vtype_kind_t *vtypea, int rega, vtype_kind_t *vtypeb, int regb, vtype_kind_t *vtypec, int regc) {
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    emit_pre_pop_reg(emit, vtypea, rega);
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    emit_pre_pop_reg(emit, vtypeb, regb);
    emit_pre_pop_reg(emit, vtypec, regc);
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}

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STATIC void emit_post(emit_t *emit) {
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}

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STATIC void emit_post_push_reg(emit_t *emit, vtype_kind_t vtype, int reg) {
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    stack_info_t *si = &emit->stack_info[emit->stack_size];
    si->vtype = vtype;
    si->kind = STACK_REG;
    si->u_reg = reg;
    adjust_stack(emit, 1);
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}

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STATIC void emit_post_push_imm(emit_t *emit, vtype_kind_t vtype, mp_int_t imm) {
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    stack_info_t *si = &emit->stack_info[emit->stack_size];
    si->vtype = vtype;
    si->kind = STACK_IMM;
    si->u_imm = imm;
    adjust_stack(emit, 1);
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}

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STATIC void emit_post_push_reg_reg(emit_t *emit, vtype_kind_t vtypea, int rega, vtype_kind_t vtypeb, int regb) {
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    emit_post_push_reg(emit, vtypea, rega);
    emit_post_push_reg(emit, vtypeb, regb);
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}

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STATIC void emit_post_push_reg_reg_reg(emit_t *emit, vtype_kind_t vtypea, int rega, vtype_kind_t vtypeb, int regb, vtype_kind_t vtypec, int regc) {
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    emit_post_push_reg(emit, vtypea, rega);
    emit_post_push_reg(emit, vtypeb, regb);
    emit_post_push_reg(emit, vtypec, regc);
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}

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STATIC void emit_post_push_reg_reg_reg_reg(emit_t *emit, vtype_kind_t vtypea, int rega, vtype_kind_t vtypeb, int regb, vtype_kind_t vtypec, int regc, vtype_kind_t vtyped, int regd) {
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    emit_post_push_reg(emit, vtypea, rega);
    emit_post_push_reg(emit, vtypeb, regb);
    emit_post_push_reg(emit, vtypec, regc);
    emit_post_push_reg(emit, vtyped, regd);
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}

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STATIC void emit_call(emit_t *emit, mp_fun_kind_t fun_kind) {
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    need_reg_all(emit);
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    ASM_CALL_IND(emit->as, mp_fun_table[fun_kind], fun_kind);
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}

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STATIC void emit_call_with_imm_arg(emit_t *emit, mp_fun_kind_t fun_kind, mp_int_t arg_val, int arg_reg) {
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    need_reg_all(emit);
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    ASM_MOV_IMM_TO_REG(emit->as, arg_val, arg_reg);
    ASM_CALL_IND(emit->as, mp_fun_table[fun_kind], fun_kind);
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}

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// the first arg is stored in the code aligned on a mp_uint_t boundary
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STATIC void emit_call_with_imm_arg_aligned(emit_t *emit, mp_fun_kind_t fun_kind, mp_int_t arg_val, int arg_reg) {
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    need_reg_all(emit);
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    ASM_MOV_ALIGNED_IMM_TO_REG(emit->as, arg_val, arg_reg);
    ASM_CALL_IND(emit->as, mp_fun_table[fun_kind], fun_kind);
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}

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STATIC void emit_call_with_2_imm_args(emit_t *emit, mp_fun_kind_t fun_kind, mp_int_t arg_val1, int arg_reg1, mp_int_t arg_val2, int arg_reg2) {
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    need_reg_all(emit);
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    ASM_MOV_IMM_TO_REG(emit->as, arg_val1, arg_reg1);
    ASM_MOV_IMM_TO_REG(emit->as, arg_val2, arg_reg2);
    ASM_CALL_IND(emit->as, mp_fun_table[fun_kind], fun_kind);
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}

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// the first arg is stored in the code aligned on a mp_uint_t boundary
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STATIC void emit_call_with_3_imm_args_and_first_aligned(emit_t *emit, mp_fun_kind_t fun_kind, mp_int_t arg_val1, int arg_reg1, mp_int_t arg_val2, int arg_reg2, mp_int_t arg_val3, int arg_reg3) {
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    need_reg_all(emit);
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    ASM_MOV_ALIGNED_IMM_TO_REG(emit->as, arg_val1, arg_reg1);
    ASM_MOV_IMM_TO_REG(emit->as, arg_val2, arg_reg2);
    ASM_MOV_IMM_TO_REG(emit->as, arg_val3, arg_reg3);
    ASM_CALL_IND(emit->as, mp_fun_table[fun_kind], fun_kind);
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}

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// vtype of all n_pop objects is VTYPE_PYOBJ
// Will convert any items that are not VTYPE_PYOBJ to this type and put them back on the stack.
// If any conversions of non-immediate values are needed, then it uses REG_ARG_1, REG_ARG_2 and REG_RET.
// Otherwise, it does not use any temporary registers (but may use reg_dest before loading it with stack pointer).
STATIC void emit_get_stack_pointer_to_reg_for_pop(emit_t *emit, mp_uint_t reg_dest, mp_uint_t n_pop) {
    need_reg_all(emit);
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    // First, store any immediate values to their respective place on the stack.
    for (mp_uint_t i = 0; i < n_pop; i++) {
        stack_info_t *si = &emit->stack_info[emit->stack_size - 1 - i];
        // must push any imm's to stack
        // must convert them to VTYPE_PYOBJ for viper code
        if (si->kind == STACK_IMM) {
            si->kind = STACK_VALUE;
            switch (si->vtype) {
                case VTYPE_PYOBJ:
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                    ASM_MOV_IMM_TO_LOCAL_USING(emit->as, si->u_imm, emit->stack_start + emit->stack_size - 1 - i, reg_dest);
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                    break;
                case VTYPE_BOOL:
                    if (si->u_imm == 0) {
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                        ASM_MOV_IMM_TO_LOCAL_USING(emit->as, (mp_uint_t)mp_const_false, emit->stack_start + emit->stack_size - 1 - i, reg_dest);
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                    } else {
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                        ASM_MOV_IMM_TO_LOCAL_USING(emit->as, (mp_uint_t)mp_const_true, emit->stack_start + emit->stack_size - 1 - i, reg_dest);
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                    }
                    si->vtype = VTYPE_PYOBJ;
                    break;
                case VTYPE_INT:
                case VTYPE_UINT:
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                    ASM_MOV_IMM_TO_LOCAL_USING(emit->as, (si->u_imm << 1) | 1, emit->stack_start + emit->stack_size - 1 - i, reg_dest);
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                    si->vtype = VTYPE_PYOBJ;
                    break;
                default:
                    // not handled
                    assert(0);
            }
        }

        // verify that this value is on the stack
        assert(si->kind == STACK_VALUE);
    }

    // Second, convert any non-VTYPE_PYOBJ to that type.
    for (mp_uint_t i = 0; i < n_pop; i++) {
        stack_info_t *si = &emit->stack_info[emit->stack_size - 1 - i];
        if (si->vtype != VTYPE_PYOBJ) {
            mp_uint_t local_num = emit->stack_start + emit->stack_size - 1 - i;
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            ASM_MOV_LOCAL_TO_REG(emit->as, local_num, REG_ARG_1);
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            emit_call_with_imm_arg(emit, MP_F_CONVERT_NATIVE_TO_OBJ, si->vtype, REG_ARG_2); // arg2 = type
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            ASM_MOV_REG_TO_LOCAL(emit->as, REG_RET, local_num);
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            si->vtype = VTYPE_PYOBJ;
        }
    }

    // Adujust the stack for a pop of n_pop items, and load the stack pointer into reg_dest.
    adjust_stack(emit, -n_pop);
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    ASM_MOV_LOCAL_ADDR_TO_REG(emit->as, emit->stack_start + emit->stack_size, reg_dest);
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}

// vtype of all n_push objects is VTYPE_PYOBJ
STATIC void emit_get_stack_pointer_to_reg_for_push(emit_t *emit, mp_uint_t reg_dest, mp_uint_t n_push) {
    need_reg_all(emit);
    for (mp_uint_t i = 0; i < n_push; i++) {
        emit->stack_info[emit->stack_size + i].kind = STACK_VALUE;
        emit->stack_info[emit->stack_size + i].vtype = VTYPE_PYOBJ;
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    }
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    ASM_MOV_LOCAL_ADDR_TO_REG(emit->as, emit->stack_start + emit->stack_size, reg_dest);
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    adjust_stack(emit, n_push);
}

STATIC void emit_native_load_id(emit_t *emit, qstr qstr) {
    emit_common_load_id(emit, &EXPORT_FUN(method_table), emit->scope, qstr);
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}

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STATIC void emit_native_store_id(emit_t *emit, qstr qstr) {
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    emit_common_store_id(emit, &EXPORT_FUN(method_table), emit->scope, qstr);
}

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STATIC void emit_native_delete_id(emit_t *emit, qstr qstr) {
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    emit_common_delete_id(emit, &EXPORT_FUN(method_table), emit->scope, qstr);
}

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STATIC void emit_native_label_assign(emit_t *emit, uint l) {
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    emit_native_pre(emit);
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    // need to commit stack because we can jump here from elsewhere
    need_stack_settled(emit);
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    ASM_LABEL_ASSIGN(emit->as, l);
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    emit_post(emit);
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}

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STATIC void emit_native_import_name(emit_t *emit, qstr qst) {
    DEBUG_printf("import_name %s\n", qstr_str(qst));
    vtype_kind_t vtype_fromlist;
    vtype_kind_t vtype_level;
    emit_pre_pop_reg_reg(emit, &vtype_fromlist, REG_ARG_2, &vtype_level, REG_ARG_3); // arg2 = fromlist, arg3 = level
    assert(vtype_fromlist == VTYPE_PYOBJ);
    assert(vtype_level == VTYPE_PYOBJ);
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    emit_call_with_imm_arg(emit, MP_F_IMPORT_NAME, qst, REG_ARG_1); // arg1 = import name
916
    emit_post_push_reg(emit, VTYPE_PYOBJ, REG_RET);
917
918
}

919
920
921
922
923
924
STATIC void emit_native_import_from(emit_t *emit, qstr qst) {
    DEBUG_printf("import_from %s\n", qstr_str(qst));
    emit_native_pre(emit);
    vtype_kind_t vtype_module;
    emit_access_stack(emit, 1, &vtype_module, REG_ARG_1); // arg1 = module
    assert(vtype_module == VTYPE_PYOBJ);
925
    emit_call_with_imm_arg(emit, MP_F_IMPORT_FROM, qst, REG_ARG_2); // arg2 = import name
926
    emit_post_push_reg(emit, VTYPE_PYOBJ, REG_RET);
927
928
}

929
STATIC void emit_native_import_star(emit_t *emit) {
930
931
932
933
    DEBUG_printf("import_star\n");
    vtype_kind_t vtype_module;
    emit_pre_pop_reg(emit, &vtype_module, REG_ARG_1); // arg1 = module
    assert(vtype_module == VTYPE_PYOBJ);
934
    emit_call(emit, MP_F_IMPORT_ALL);
935
    emit_post(emit);
936
937
}

938
STATIC void emit_native_load_const_tok(emit_t *emit, mp_token_kind_t tok) {
939
    DEBUG_printf("load_const_tok %d\n", tok);
940
    emit_native_pre(emit);
941
    int vtype;
942
    mp_uint_t val;
943
944
    if (emit->do_viper_types) {
        switch (tok) {
945
946
947
            case MP_TOKEN_KW_NONE: vtype = VTYPE_PTR_NONE; val = 0; break;
            case MP_TOKEN_KW_FALSE: vtype = VTYPE_BOOL; val = 0; break;
            case MP_TOKEN_KW_TRUE: vtype = VTYPE_BOOL; val = 1; break;
948
949
950
951
952
            default: assert(0); vtype = 0; val = 0; // shouldn't happen
        }
    } else {
        vtype = VTYPE_PYOBJ;
        switch (tok) {
953
954
955
            case MP_TOKEN_KW_NONE: val = (mp_uint_t)mp_const_none; break;
            case MP_TOKEN_KW_FALSE: val = (mp_uint_t)mp_const_false; break;
            case MP_TOKEN_KW_TRUE: val = (mp_uint_t)mp_const_true; break;
956
957
958
959
960
961
            default: assert(0); vtype = 0; val = 0; // shouldn't happen
        }
    }
    emit_post_push_imm(emit, vtype, val);
}

962
STATIC void emit_native_load_const_small_int(emit_t *emit, mp_int_t arg) {
963
    DEBUG_printf("load_const_small_int %d\n", arg);
964
    emit_native_pre(emit);
965
966
967
968
969
970
971
    if (emit->do_viper_types) {
        emit_post_push_imm(emit, VTYPE_INT, arg);
    } else {
        emit_post_push_imm(emit, VTYPE_PYOBJ, (arg << 1) | 1);
    }
}

972
973
974
975
STATIC void emit_native_load_const_int(emit_t *emit, qstr qst) {
    DEBUG_printf("load_const_int %s\n", qstr_str(st));
    // for viper: load integer, check fits in 32 bits
    emit_native_pre(emit);
976
    emit_call_with_imm_arg(emit, MP_F_LOAD_CONST_INT, qst, REG_ARG_1);
977
    emit_post_push_reg(emit, VTYPE_PYOBJ, REG_RET);
978
979
}

980
STATIC void emit_native_load_const_dec(emit_t *emit, qstr qstr) {
981
    // for viper, a float/complex is just a Python object
982
    emit_native_pre(emit);
983
    emit_call_with_imm_arg(emit, MP_F_LOAD_CONST_DEC, qstr, REG_ARG_1);
984
    emit_post_push_reg(emit, VTYPE_PYOBJ, REG_RET);
985
986
}

987
STATIC void emit_native_load_const_str(emit_t *emit, qstr qstr, bool bytes) {
988
    emit_native_pre(emit);
989
990
991
992
    if (emit->do_viper_types) {
        // not implemented properly
        // load a pointer to the asciiz string?
        assert(0);
993
        emit_post_push_imm(emit, VTYPE_PTR, (mp_uint_t)qstr_str(qstr));
994
    } else {
995
        if (bytes) {
996
            emit_call_with_imm_arg(emit, MP_F_LOAD_CONST_BYTES, qstr, REG_ARG_1);
997
        } else {
998
            emit_call_with_imm_arg(emit, MP_F_LOAD_CONST_STR, qstr, REG_ARG_1);
999
        }
1000
        emit_post_push_reg(emit, VTYPE_PYOBJ, REG_RET);
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