mirror of https://gitee.com/openkylin/qemu.git
352 lines
13 KiB
Python
Executable File
352 lines
13 KiB
Python
Executable File
#!/usr/bin/env python3
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##
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## Copyright(c) 2019-2021 Qualcomm Innovation Center, Inc. All Rights Reserved.
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##
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## This program is free software; you can redistribute it and/or modify
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## it under the terms of the GNU General Public License as published by
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## the Free Software Foundation; either version 2 of the License, or
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## (at your option) any later version.
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##
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## This program is distributed in the hope that it will be useful,
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## but WITHOUT ANY WARRANTY; without even the implied warranty of
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## MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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## GNU General Public License for more details.
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##
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## You should have received a copy of the GNU General Public License
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## along with this program; if not, see <http://www.gnu.org/licenses/>.
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##
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import io
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import re
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import sys
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import iset
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encs = {tag : ''.join(reversed(iset.iset[tag]['enc'].replace(' ', '')))
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for tag in iset.tags if iset.iset[tag]['enc'] != 'MISSING ENCODING'}
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enc_classes = set([iset.iset[tag]['enc_class'] for tag in encs.keys()])
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subinsn_enc_classes = \
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set([enc_class for enc_class in enc_classes \
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if enc_class.startswith('SUBINSN_')])
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ext_enc_classes = \
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set([enc_class for enc_class in enc_classes \
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if enc_class not in ('NORMAL', '16BIT') and \
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not enc_class.startswith('SUBINSN_')])
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try:
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subinsn_groupings = iset.subinsn_groupings
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except AttributeError:
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subinsn_groupings = {}
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for (tag, subinsn_grouping) in subinsn_groupings.items():
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encs[tag] = ''.join(reversed(subinsn_grouping['enc'].replace(' ', '')))
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dectree_normal = {'leaves' : set()}
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dectree_16bit = {'leaves' : set()}
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dectree_subinsn_groupings = {'leaves' : set()}
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dectree_subinsns = {name : {'leaves' : set()} for name in subinsn_enc_classes}
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dectree_extensions = {name : {'leaves' : set()} for name in ext_enc_classes}
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for tag in encs.keys():
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if tag in subinsn_groupings:
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dectree_subinsn_groupings['leaves'].add(tag)
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continue
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enc_class = iset.iset[tag]['enc_class']
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if enc_class.startswith('SUBINSN_'):
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if len(encs[tag]) != 32:
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encs[tag] = encs[tag] + '0' * (32 - len(encs[tag]))
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dectree_subinsns[enc_class]['leaves'].add(tag)
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elif enc_class == '16BIT':
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if len(encs[tag]) != 16:
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raise Exception('Tag "{}" has enc_class "{}" and not an encoding ' +
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'width of 16 bits!'.format(tag, enc_class))
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dectree_16bit['leaves'].add(tag)
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else:
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if len(encs[tag]) != 32:
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raise Exception('Tag "{}" has enc_class "{}" and not an encoding ' +
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'width of 32 bits!'.format(tag, enc_class))
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if enc_class == 'NORMAL':
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dectree_normal['leaves'].add(tag)
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else:
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dectree_extensions[enc_class]['leaves'].add(tag)
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faketags = set()
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for (tag, enc) in iset.enc_ext_spaces.items():
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faketags.add(tag)
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encs[tag] = ''.join(reversed(enc.replace(' ', '')))
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dectree_normal['leaves'].add(tag)
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faketags |= set(subinsn_groupings.keys())
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def every_bit_counts(bitset):
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for i in range(1, len(next(iter(bitset)))):
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if len(set([bits[:i] + bits[i+1:] for bits in bitset])) == len(bitset):
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return False
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return True
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def auto_separate(node):
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tags = node['leaves']
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if len(tags) <= 1:
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return
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enc_width = len(encs[next(iter(tags))])
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opcode_bit_for_all = \
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[all([encs[tag][i] in '01' \
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for tag in tags]) for i in range(enc_width)]
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opcode_bit_is_0_for_all = \
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[opcode_bit_for_all[i] and all([encs[tag][i] == '0' \
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for tag in tags]) for i in range(enc_width)]
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opcode_bit_is_1_for_all = \
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[opcode_bit_for_all[i] and all([encs[tag][i] == '1' \
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for tag in tags]) for i in range(enc_width)]
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differentiator_opcode_bit = \
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[opcode_bit_for_all[i] and \
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not (opcode_bit_is_0_for_all[i] or \
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opcode_bit_is_1_for_all[i]) \
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for i in range(enc_width)]
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best_width = 0
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for width in range(4, 0, -1):
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for lsb in range(enc_width - width, -1, -1):
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bitset = set([encs[tag][lsb:lsb+width] for tag in tags])
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if all(differentiator_opcode_bit[lsb:lsb+width]) and \
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(len(bitset) == len(tags) or every_bit_counts(bitset)):
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best_width = width
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best_lsb = lsb
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caught_all_tags = len(bitset) == len(tags)
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break
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if best_width != 0:
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break
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if best_width == 0:
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raise Exception('Could not find a way to differentiate the encodings ' +
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'of the following tags:\n{}'.format('\n'.join(tags)))
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if caught_all_tags:
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for width in range(1, best_width):
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for lsb in range(enc_width - width, -1, -1):
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bitset = set([encs[tag][lsb:lsb+width] for tag in tags])
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if all(differentiator_opcode_bit[lsb:lsb+width]) and \
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len(bitset) == len(tags):
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best_width = width
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best_lsb = lsb
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break
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else:
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continue
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break
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node['separator_lsb'] = best_lsb
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node['separator_width'] = best_width
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node['children'] = []
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for value in range(2 ** best_width):
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child = {}
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bits = ''.join(reversed('{:0{}b}'.format(value, best_width)))
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child['leaves'] = \
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set([tag for tag in tags \
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if encs[tag][best_lsb:best_lsb+best_width] == bits])
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node['children'].append(child)
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for child in node['children']:
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auto_separate(child)
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auto_separate(dectree_normal)
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auto_separate(dectree_16bit)
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if subinsn_groupings:
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auto_separate(dectree_subinsn_groupings)
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for dectree_subinsn in dectree_subinsns.values():
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auto_separate(dectree_subinsn)
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for dectree_ext in dectree_extensions.values():
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auto_separate(dectree_ext)
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for tag in faketags:
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del encs[tag]
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def table_name(parents, node):
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path = parents + [node]
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root = path[0]
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tag = next(iter(node['leaves']))
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if tag in subinsn_groupings:
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enc_width = len(subinsn_groupings[tag]['enc'].replace(' ', ''))
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else:
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tag = next(iter(node['leaves'] - faketags))
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enc_width = len(encs[tag])
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determining_bits = ['_'] * enc_width
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for (parent, child) in zip(path[:-1], path[1:]):
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lsb = parent['separator_lsb']
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width = parent['separator_width']
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value = parent['children'].index(child)
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determining_bits[lsb:lsb+width] = \
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list(reversed('{:0{}b}'.format(value, width)))
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if tag in subinsn_groupings:
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name = 'DECODE_ROOT_EE'
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else:
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enc_class = iset.iset[tag]['enc_class']
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if enc_class in ext_enc_classes:
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name = 'DECODE_EXT_{}'.format(enc_class)
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elif enc_class in subinsn_enc_classes:
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name = 'DECODE_SUBINSN_{}'.format(enc_class)
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else:
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name = 'DECODE_ROOT_{}'.format(enc_width)
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if node != root:
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name += '_' + ''.join(reversed(determining_bits))
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return name
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def print_node(f, node, parents):
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if len(node['leaves']) <= 1:
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return
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name = table_name(parents, node)
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lsb = node['separator_lsb']
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width = node['separator_width']
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print('DECODE_NEW_TABLE({},{},DECODE_SEPARATOR_BITS({},{}))'.\
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format(name, 2 ** width, lsb, width), file=f)
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for child in node['children']:
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if len(child['leaves']) == 0:
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print('INVALID()', file=f)
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elif len(child['leaves']) == 1:
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(tag,) = child['leaves']
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if tag in subinsn_groupings:
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class_a = subinsn_groupings[tag]['class_a']
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class_b = subinsn_groupings[tag]['class_b']
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enc = subinsn_groupings[tag]['enc'].replace(' ', '')
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if 'RESERVED' in tag:
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print('INVALID()', file=f)
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else:
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print('SUBINSNS({},{},{},"{}")'.\
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format(tag, class_a, class_b, enc), file=f)
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elif tag in iset.enc_ext_spaces:
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enc = iset.enc_ext_spaces[tag].replace(' ', '')
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print('EXTSPACE({},"{}")'.format(tag, enc), file=f)
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else:
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enc = ''.join(reversed(encs[tag]))
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print('TERMINAL({},"{}")'.format(tag, enc), file=f)
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else:
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print('TABLE_LINK({})'.format(table_name(parents + [node], child)),
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file=f)
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print('DECODE_END_TABLE({},{},DECODE_SEPARATOR_BITS({},{}))'.\
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format(name, 2 ** width, lsb, width), file=f)
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print(file=f)
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parents.append(node)
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for child in node['children']:
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print_node(f, child, parents)
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parents.pop()
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def print_tree(f, tree):
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print_node(f, tree, [])
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def print_match_info(f):
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for tag in sorted(encs.keys(), key=iset.tags.index):
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enc = ''.join(reversed(encs[tag]))
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mask = int(re.sub(r'[^1]', r'0', enc.replace('0', '1')), 2)
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match = int(re.sub(r'[^01]', r'0', enc), 2)
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suffix = ''
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print('DECODE{}_MATCH_INFO({},0x{:x}U,0x{:x}U)'.\
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format(suffix, tag, mask, match), file=f)
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regre = re.compile(
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r'((?<!DUP)[MNORCPQXSGVZA])([stuvwxyzdefg]+)([.]?[LlHh]?)(\d+S?)')
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immre = re.compile(r'[#]([rRsSuUm])(\d+)(?:[:](\d+))?')
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def ordered_unique(l):
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return sorted(set(l), key=l.index)
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implicit_registers = {
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'SP' : 29,
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'FP' : 30,
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'LR' : 31
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}
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num_registers = {
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'R' : 32,
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'V' : 32
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}
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def print_op_info(f):
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for tag in sorted(encs.keys(), key=iset.tags.index):
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enc = encs[tag]
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print(file=f)
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print('DECODE_OPINFO({},'.format(tag), file=f)
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regs = ordered_unique(regre.findall(iset.iset[tag]['syntax']))
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imms = ordered_unique(immre.findall(iset.iset[tag]['syntax']))
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regno = 0
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for reg in regs:
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reg_type = reg[0]
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reg_letter = reg[1][0]
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reg_num_choices = int(reg[3].rstrip('S'))
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reg_mapping = reg[0] + ''.join(['_' for letter in reg[1]]) + reg[3]
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reg_enc_fields = re.findall(reg_letter + '+', enc)
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if len(reg_enc_fields) == 0:
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raise Exception('Tag "{}" missing register field!'.format(tag))
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if len(reg_enc_fields) > 1:
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raise Exception('Tag "{}" has split register field!'.\
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format(tag))
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reg_enc_field = reg_enc_fields[0]
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if 2 ** len(reg_enc_field) != reg_num_choices:
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raise Exception('Tag "{}" has incorrect register field width!'.\
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format(tag))
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print(' DECODE_REG({},{},{})'.\
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format(regno, len(reg_enc_field), enc.index(reg_enc_field)),
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file=f)
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if reg_type in num_registers and \
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reg_num_choices != num_registers[reg_type]:
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print(' DECODE_MAPPED_REG({},{})'.\
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format(regno, reg_mapping), file=f)
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regno += 1
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def implicit_register_key(reg):
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return implicit_registers[reg]
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for reg in sorted(
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set([r for r in (iset.iset[tag]['rregs'].split(',') + \
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iset.iset[tag]['wregs'].split(',')) \
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if r in implicit_registers]), key=implicit_register_key):
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print(' DECODE_IMPL_REG({},{})'.\
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format(regno, implicit_registers[reg]), file=f)
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regno += 1
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if imms and imms[0][0].isupper():
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imms = reversed(imms)
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for imm in imms:
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if imm[0].isupper():
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immno = 1
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else:
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immno = 0
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imm_type = imm[0]
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imm_width = int(imm[1])
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imm_shift = imm[2]
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if imm_shift:
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imm_shift = int(imm_shift)
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else:
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imm_shift = 0
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if imm_type.islower():
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imm_letter = 'i'
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else:
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imm_letter = 'I'
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remainder = imm_width
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for m in reversed(list(re.finditer(imm_letter + '+', enc))):
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remainder -= m.end() - m.start()
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print(' DECODE_IMM({},{},{},{})'.\
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format(immno, m.end() - m.start(), m.start(), remainder),
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file=f)
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if remainder != 0:
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if imm[2]:
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imm[2] = ':' + imm[2]
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raise Exception('Tag "{}" has an incorrect number of ' + \
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'encoding bits for immediate "{}"'.\
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format(tag, ''.join(imm)))
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if imm_type.lower() in 'sr':
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print(' DECODE_IMM_SXT({},{})'.\
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format(immno, imm_width), file=f)
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if imm_type.lower() == 'n':
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print(' DECODE_IMM_NEG({},{})'.\
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format(immno, imm_width), file=f)
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if imm_shift:
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print(' DECODE_IMM_SHIFT({},{})'.\
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format(immno, imm_shift), file=f)
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print(')', file=f)
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if __name__ == '__main__':
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with open(sys.argv[1], 'w') as f:
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print_tree(f, dectree_normal)
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print_tree(f, dectree_16bit)
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if subinsn_groupings:
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print_tree(f, dectree_subinsn_groupings)
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for (name, dectree_subinsn) in sorted(dectree_subinsns.items()):
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print_tree(f, dectree_subinsn)
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for (name, dectree_ext) in sorted(dectree_extensions.items()):
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print_tree(f, dectree_ext)
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print_match_info(f)
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print_op_info(f)
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