2016-12-09 00:32:30 -05:00
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/*
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* This file is part of the MicroPython project, http://micropython.org/
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*
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* The MIT License (MIT)
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*
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* Copyright (c) 2016 Damien P. George
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*
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* Permission is hereby granted, free of charge, to any person obtaining a copy
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* of this software and associated documentation files (the "Software"), to deal
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* in the Software without restriction, including without limitation the rights
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* to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
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* copies of the Software, and to permit persons to whom the Software is
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* furnished to do so, subject to the following conditions:
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*
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* The above copyright notice and this permission notice shall be included in
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* all copies or substantial portions of the Software.
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*
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* THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
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* IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
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* FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
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* AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
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* LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
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* OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN
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* THE SOFTWARE.
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*/
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#include <stdio.h>
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#include <assert.h>
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#include "py/mpconfig.h"
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// wrapper around everything in this file
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2019-09-12 23:15:12 -04:00
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#if MICROPY_EMIT_XTENSA || MICROPY_EMIT_INLINE_XTENSA || MICROPY_EMIT_XTENSAWIN
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2016-12-09 00:32:30 -05:00
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#include "py/asmxtensa.h"
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#define WORD_SIZE (4)
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#define SIGNED_FIT8(x) ((((x) & 0xffffff80) == 0) || (((x) & 0xffffff80) == 0xffffff80))
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#define SIGNED_FIT12(x) ((((x) & 0xfffff800) == 0) || (((x) & 0xfffff800) == 0xfffff800))
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void asm_xtensa_end_pass(asm_xtensa_t *as) {
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as->num_const = as->cur_const;
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as->cur_const = 0;
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#if 0
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// make a hex dump of the machine code
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if (as->base.pass == MP_ASM_PASS_EMIT) {
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uint8_t *d = as->base.code_base;
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printf("XTENSA ASM:");
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for (int i = 0; i < ((as->base.code_size + 15) & ~15); ++i) {
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if (i % 16 == 0) {
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printf("\n%08x:", (uint32_t)&d[i]);
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}
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if (i % 2 == 0) {
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printf(" ");
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}
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printf("%02x", d[i]);
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}
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printf("\n");
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}
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#endif
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}
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void asm_xtensa_entry(asm_xtensa_t *as, int num_locals) {
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// jump over the constants
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asm_xtensa_op_j(as, as->num_const * WORD_SIZE + 4 - 4);
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mp_asm_base_get_cur_to_write_bytes(&as->base, 1); // padding/alignment byte
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as->const_table = (uint32_t*)mp_asm_base_get_cur_to_write_bytes(&as->base, as->num_const * 4);
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2018-09-15 10:43:24 -04:00
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// adjust the stack-pointer to store a0, a12, a13, a14, a15 and locals, 16-byte aligned
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2019-09-09 23:46:13 -04:00
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as->stack_adjust = (((ASM_XTENSA_NUM_REGS_SAVED + num_locals) * WORD_SIZE) + 15) & ~15;
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2018-08-15 23:43:36 -04:00
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if (SIGNED_FIT8(-as->stack_adjust)) {
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asm_xtensa_op_addi(as, ASM_XTENSA_REG_A1, ASM_XTENSA_REG_A1, -as->stack_adjust);
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} else {
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asm_xtensa_op_movi(as, ASM_XTENSA_REG_A9, as->stack_adjust);
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asm_xtensa_op_sub(as, ASM_XTENSA_REG_A1, ASM_XTENSA_REG_A1, ASM_XTENSA_REG_A9);
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}
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2016-12-09 00:32:30 -05:00
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2018-09-15 10:43:24 -04:00
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// save return value (a0) and callee-save registers (a12, a13, a14, a15)
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2016-12-09 00:32:30 -05:00
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asm_xtensa_op_s32i_n(as, ASM_XTENSA_REG_A0, ASM_XTENSA_REG_A1, 0);
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2019-09-09 23:46:13 -04:00
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for (int i = 1; i < ASM_XTENSA_NUM_REGS_SAVED; ++i) {
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2018-09-15 10:43:24 -04:00
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asm_xtensa_op_s32i_n(as, ASM_XTENSA_REG_A11 + i, ASM_XTENSA_REG_A1, i);
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}
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2016-12-09 00:32:30 -05:00
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}
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void asm_xtensa_exit(asm_xtensa_t *as) {
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// restore registers
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2019-09-09 23:46:13 -04:00
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for (int i = ASM_XTENSA_NUM_REGS_SAVED - 1; i >= 1; --i) {
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2018-09-15 10:43:24 -04:00
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asm_xtensa_op_l32i_n(as, ASM_XTENSA_REG_A11 + i, ASM_XTENSA_REG_A1, i);
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}
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2016-12-09 00:32:30 -05:00
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asm_xtensa_op_l32i_n(as, ASM_XTENSA_REG_A0, ASM_XTENSA_REG_A1, 0);
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// restore stack-pointer and return
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2018-08-15 23:43:36 -04:00
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if (SIGNED_FIT8(as->stack_adjust)) {
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asm_xtensa_op_addi(as, ASM_XTENSA_REG_A1, ASM_XTENSA_REG_A1, as->stack_adjust);
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} else {
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asm_xtensa_op_movi(as, ASM_XTENSA_REG_A9, as->stack_adjust);
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2018-08-17 00:53:58 -04:00
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asm_xtensa_op_add_n(as, ASM_XTENSA_REG_A1, ASM_XTENSA_REG_A1, ASM_XTENSA_REG_A9);
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2018-08-15 23:43:36 -04:00
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}
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2016-12-09 00:32:30 -05:00
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asm_xtensa_op_ret_n(as);
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}
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2019-09-09 23:46:13 -04:00
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void asm_xtensa_entry_win(asm_xtensa_t *as, int num_locals) {
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// jump over the constants
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asm_xtensa_op_j(as, as->num_const * WORD_SIZE + 4 - 4);
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mp_asm_base_get_cur_to_write_bytes(&as->base, 1); // padding/alignment byte
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as->const_table = (uint32_t*)mp_asm_base_get_cur_to_write_bytes(&as->base, as->num_const * 4);
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as->stack_adjust = 32 + ((((ASM_XTENSA_NUM_REGS_SAVED_WIN + num_locals) * WORD_SIZE) + 15) & ~15);
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asm_xtensa_op_entry(as, ASM_XTENSA_REG_A1, as->stack_adjust);
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asm_xtensa_op_s32i_n(as, ASM_XTENSA_REG_A0, ASM_XTENSA_REG_A1, 0);
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}
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void asm_xtensa_exit_win(asm_xtensa_t *as) {
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asm_xtensa_op_l32i_n(as, ASM_XTENSA_REG_A0, ASM_XTENSA_REG_A1, 0);
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asm_xtensa_op_retw_n(as);
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}
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2016-12-09 00:32:30 -05:00
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STATIC uint32_t get_label_dest(asm_xtensa_t *as, uint label) {
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assert(label < as->base.max_num_labels);
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return as->base.label_offsets[label];
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}
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void asm_xtensa_op16(asm_xtensa_t *as, uint16_t op) {
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uint8_t *c = mp_asm_base_get_cur_to_write_bytes(&as->base, 2);
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2016-12-09 06:50:58 -05:00
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if (c != NULL) {
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c[0] = op;
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c[1] = op >> 8;
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}
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2016-12-09 00:32:30 -05:00
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}
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void asm_xtensa_op24(asm_xtensa_t *as, uint32_t op) {
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uint8_t *c = mp_asm_base_get_cur_to_write_bytes(&as->base, 3);
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2016-12-09 06:50:58 -05:00
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if (c != NULL) {
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c[0] = op;
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c[1] = op >> 8;
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c[2] = op >> 16;
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}
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2016-12-09 00:32:30 -05:00
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}
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void asm_xtensa_j_label(asm_xtensa_t *as, uint label) {
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uint32_t dest = get_label_dest(as, label);
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int32_t rel = dest - as->base.code_offset - 4;
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// we assume rel, as a signed int, fits in 18-bits
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asm_xtensa_op_j(as, rel);
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}
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void asm_xtensa_bccz_reg_label(asm_xtensa_t *as, uint cond, uint reg, uint label) {
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uint32_t dest = get_label_dest(as, label);
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int32_t rel = dest - as->base.code_offset - 4;
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if (as->base.pass == MP_ASM_PASS_EMIT && !SIGNED_FIT12(rel)) {
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printf("ERROR: xtensa bccz out of range\n");
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}
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asm_xtensa_op_bccz(as, cond, reg, rel);
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}
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void asm_xtensa_bcc_reg_reg_label(asm_xtensa_t *as, uint cond, uint reg1, uint reg2, uint label) {
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uint32_t dest = get_label_dest(as, label);
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int32_t rel = dest - as->base.code_offset - 4;
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if (as->base.pass == MP_ASM_PASS_EMIT && !SIGNED_FIT8(rel)) {
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printf("ERROR: xtensa bcc out of range\n");
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}
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asm_xtensa_op_bcc(as, cond, reg1, reg2, rel);
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}
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// convenience function; reg_dest must be different from reg_src[12]
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void asm_xtensa_setcc_reg_reg_reg(asm_xtensa_t *as, uint cond, uint reg_dest, uint reg_src1, uint reg_src2) {
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asm_xtensa_op_movi_n(as, reg_dest, 1);
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asm_xtensa_op_bcc(as, cond, reg_src1, reg_src2, 1);
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asm_xtensa_op_movi_n(as, reg_dest, 0);
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}
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py: Add support to save native, viper and asm code to .mpy files.
This commit adds support for saving and loading .mpy files that contain
native code (native, viper and inline-asm). A lot of the ground work was
already done for this in the form of removing pointers from generated
native code. The changes here are mainly to link in qstr values to the
native code, and change the format of .mpy files to contain native code
blocks (possibly mixed with bytecode).
A top-level summary:
- @micropython.native, @micropython.viper and @micropython.asm_thumb/
asm_xtensa are now allowed in .py files when compiling to .mpy, and they
work transparently to the user.
- Entire .py files can be compiled to native via mpy-cross -X emit=native
and for the most part the generated .mpy files should work the same as
their bytecode version.
- The .mpy file format is changed to 1) specify in the header if the file
contains native code and if so the architecture (eg x86, ARMV7M, Xtensa);
2) for each function block the kind of code is specified (bytecode,
native, viper, asm).
- When native code is loaded from a .mpy file the native code must be
modified (in place) to link qstr values in, just like bytecode (see
py/persistentcode.c:arch_link_qstr() function).
In addition, this now defines a public, native ABI for dynamically loadable
native code generated by other languages, like C.
2019-02-20 23:18:33 -05:00
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size_t asm_xtensa_mov_reg_i32(asm_xtensa_t *as, uint reg_dest, uint32_t i32) {
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// load the constant
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uint32_t const_table_offset = (uint8_t*)as->const_table - as->base.code_base;
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size_t loc = const_table_offset + as->cur_const * WORD_SIZE;
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asm_xtensa_op_l32r(as, reg_dest, as->base.code_offset, loc);
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// store the constant in the table
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if (as->const_table != NULL) {
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as->const_table[as->cur_const] = i32;
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}
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++as->cur_const;
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return loc;
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}
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void asm_xtensa_mov_reg_i32_optimised(asm_xtensa_t *as, uint reg_dest, uint32_t i32) {
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2016-12-09 00:32:30 -05:00
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if (SIGNED_FIT12(i32)) {
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asm_xtensa_op_movi(as, reg_dest, i32);
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} else {
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py: Add support to save native, viper and asm code to .mpy files.
This commit adds support for saving and loading .mpy files that contain
native code (native, viper and inline-asm). A lot of the ground work was
already done for this in the form of removing pointers from generated
native code. The changes here are mainly to link in qstr values to the
native code, and change the format of .mpy files to contain native code
blocks (possibly mixed with bytecode).
A top-level summary:
- @micropython.native, @micropython.viper and @micropython.asm_thumb/
asm_xtensa are now allowed in .py files when compiling to .mpy, and they
work transparently to the user.
- Entire .py files can be compiled to native via mpy-cross -X emit=native
and for the most part the generated .mpy files should work the same as
their bytecode version.
- The .mpy file format is changed to 1) specify in the header if the file
contains native code and if so the architecture (eg x86, ARMV7M, Xtensa);
2) for each function block the kind of code is specified (bytecode,
native, viper, asm).
- When native code is loaded from a .mpy file the native code must be
modified (in place) to link qstr values in, just like bytecode (see
py/persistentcode.c:arch_link_qstr() function).
In addition, this now defines a public, native ABI for dynamically loadable
native code generated by other languages, like C.
2019-02-20 23:18:33 -05:00
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asm_xtensa_mov_reg_i32(as, reg_dest, i32);
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2016-12-09 00:32:30 -05:00
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}
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}
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void asm_xtensa_mov_local_reg(asm_xtensa_t *as, int local_num, uint reg_src) {
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2019-09-09 23:46:13 -04:00
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asm_xtensa_op_s32i(as, reg_src, ASM_XTENSA_REG_A1, local_num);
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2016-12-09 00:32:30 -05:00
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}
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void asm_xtensa_mov_reg_local(asm_xtensa_t *as, uint reg_dest, int local_num) {
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2019-09-09 23:46:13 -04:00
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asm_xtensa_op_l32i(as, reg_dest, ASM_XTENSA_REG_A1, local_num);
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2016-12-09 00:32:30 -05:00
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}
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void asm_xtensa_mov_reg_local_addr(asm_xtensa_t *as, uint reg_dest, int local_num) {
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2019-09-09 23:46:13 -04:00
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uint off = local_num * WORD_SIZE;
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2018-08-16 11:11:22 -04:00
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if (SIGNED_FIT8(off)) {
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asm_xtensa_op_addi(as, reg_dest, ASM_XTENSA_REG_A1, off);
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} else {
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asm_xtensa_op_movi(as, reg_dest, off);
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2018-08-17 00:53:58 -04:00
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asm_xtensa_op_add_n(as, reg_dest, reg_dest, ASM_XTENSA_REG_A1);
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2018-08-16 11:11:22 -04:00
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}
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2016-12-09 00:32:30 -05:00
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}
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2018-08-15 23:45:24 -04:00
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void asm_xtensa_mov_reg_pcrel(asm_xtensa_t *as, uint reg_dest, uint label) {
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// Get relative offset from PC
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uint32_t dest = get_label_dest(as, label);
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int32_t rel = dest - as->base.code_offset;
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rel -= 3 + 3; // account for 3 bytes of movi instruction, 3 bytes call0 adjustment
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asm_xtensa_op_movi(as, reg_dest, rel); // imm has 12-bit range
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// Use call0 to get PC+3 into a0
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// call0 destination must be aligned on 4 bytes:
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// - code_offset&3=0: off=0, pad=1
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// - code_offset&3=1: off=0, pad=0
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// - code_offset&3=2: off=1, pad=3
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// - code_offset&3=3: off=1, pad=2
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uint32_t off = as->base.code_offset >> 1 & 1;
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uint32_t pad = (5 - as->base.code_offset) & 3;
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asm_xtensa_op_call0(as, off);
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mp_asm_base_get_cur_to_write_bytes(&as->base, pad);
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// Add PC to relative offset
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2018-08-17 00:53:58 -04:00
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asm_xtensa_op_add_n(as, reg_dest, reg_dest, ASM_XTENSA_REG_A0);
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2018-08-15 23:45:24 -04:00
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}
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2018-09-15 10:43:24 -04:00
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void asm_xtensa_call_ind(asm_xtensa_t *as, uint idx) {
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if (idx < 16) {
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2018-10-12 23:53:35 -04:00
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asm_xtensa_op_l32i_n(as, ASM_XTENSA_REG_A0, ASM_XTENSA_REG_FUN_TABLE, idx);
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2018-09-15 10:43:24 -04:00
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} else {
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2018-10-12 23:53:35 -04:00
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asm_xtensa_op_l32i(as, ASM_XTENSA_REG_A0, ASM_XTENSA_REG_FUN_TABLE, idx);
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2018-09-15 10:43:24 -04:00
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}
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asm_xtensa_op_callx0(as, ASM_XTENSA_REG_A0);
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}
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2019-09-09 23:46:13 -04:00
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void asm_xtensa_call_ind_win(asm_xtensa_t *as, uint idx) {
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if (idx < 16) {
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asm_xtensa_op_l32i_n(as, ASM_XTENSA_REG_A8, ASM_XTENSA_REG_FUN_TABLE_WIN, idx);
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} else {
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asm_xtensa_op_l32i(as, ASM_XTENSA_REG_A8, ASM_XTENSA_REG_FUN_TABLE_WIN, idx);
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}
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asm_xtensa_op_callx8(as, ASM_XTENSA_REG_A8);
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}
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2019-09-12 23:15:12 -04:00
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#endif // MICROPY_EMIT_XTENSA || MICROPY_EMIT_INLINE_XTENSA || MICROPY_EMIT_XTENSAWIN
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