-#!/usr/bin/python3
+#!/usr/bin/env python3
import ply.lex as lex
import ply.yacc as yacc
import logging
import binascii
import os
+import sys
log = logging.getLogger('vppapigen')
t_ignore_LINE_COMMENT = '//.*'
+ def t_FALSE(self, t):
+ r'false'
+ t.value = False
+ return t
+
+ def t_TRUE(self, t):
+ r'false'
+ t.value = True
+ return t
+
def t_NUM(self, t):
r'0[xX][0-9a-fA-F]+|-?\d+\.?\d*'
base = 16 if t.value.startswith('0x') else 10
self.manual_print = True
elif f == 'manual_endian':
self.manual_endian = True
+ for b in block:
+ # Tag length field of a VLA
+ if isinstance(b, Array):
+ if b.lengthfield:
+ for b2 in block:
+ if b2.fieldname == b.lengthfield:
+ b2.vla_len = True
+
global_type_add(name, self)
+ self.vla = False
+
+ for i, b in enumerate(block):
+ if isinstance(b, Array):
+ if b.length == 0:
+ self.vla = True
+ if i + 1 < len(block):
+ raise ValueError(
+ 'VLA field "{}" must be the last '
+ 'field in message "{}"'
+ .format(b.fieldname, name))
+ elif b.fieldtype == 'string':
+ self.vla = True
+ if i + 1 < len(block):
+ raise ValueError(
+ 'VLA field "{}" must be the last '
+ 'field in message "{}"'
+ .format(b.fieldname, name))
+
def __repr__(self):
return self.name + str(self.flags) + str(self.block)
class Using():
- def __init__(self, name, alias):
+ def __init__(self, name, flags, alias):
self.name = name
+ self.vla = False
+
+ self.manual_print = False
+ self.manual_endian = False
+ for f in flags:
+ if f == 'manual_print':
+ self.manual_print = True
+ elif f == 'manual_endian':
+ self.manual_endian = True
if isinstance(alias, Array):
- a = { 'type': alias.fieldtype, # noqa: E201
- 'length': alias.length } # noqa: E202
+ a = {'type': alias.fieldtype,
+ 'length': alias.length}
else:
- a = { 'type': alias.fieldtype } # noqa: E201,E202
+ a = {'type': alias.fieldtype}
self.alias = a
self.crc = str(alias).encode()
global_type_add(name, self)
class Union():
- def __init__(self, name, block):
+ def __init__(self, name, flags, block):
self.type = 'Union'
self.manual_print = False
self.manual_endian = False
self.name = name
+
+ self.manual_print = False
+ self.manual_endian = False
+ for f in flags:
+ if f == 'manual_print':
+ self.manual_print = True
+ elif f == 'manual_endian':
+ self.manual_endian = True
+
self.block = block
self.crc = str(block).encode()
global_type_add(name, self)
elif f == 'autoreply':
self.autoreply = True
- for b in block:
+ for i, b in enumerate(block):
if isinstance(b, Option):
if b[1] == 'singular' and b[2] == 'true':
self.singular = True
block.remove(b)
+ if isinstance(b, Array) and b.vla and i + 1 < len(block):
+ raise ValueError(
+ 'VLA field "{}" must be the last field in message "{}"'
+ .format(b.fieldname, name))
+ elif b.fieldtype.startswith('vl_api_'):
+ if (global_types[b.fieldtype].vla and i + 1 < len(block)):
+ raise ValueError(
+ 'VLA field "{}" must be the last '
+ 'field in message "{}"'
+ .format(b.fieldname, name))
+ elif b.fieldtype == 'string' and b.length == 0:
+ if i + 1 < len(block):
+ raise ValueError(
+ 'VLA field "{}" must be the last '
+ 'field in message "{}"'
+ .format(b.fieldname, name))
+ # Tag length field of a VLA
+ if isinstance(b, Array):
+ if b.lengthfield:
+ for b2 in block:
+ if b2.fieldname == b.lengthfield:
+ b2.vla_len = True
+
def __repr__(self):
return self.name + str(self.flags) + str(self.block)
def __init__(self, name, block, enumtype='u32'):
self.name = name
self.enumtype = enumtype
+ self.vla = False
count = 0
for i, b in enumerate(block):
class Option():
- def __init__(self, option):
+ def __init__(self, option, value):
+ self.type = 'Option'
self.option = option
+ self.value = value
self.crc = str(option).encode()
def __repr__(self):
class Array():
- def __init__(self, fieldtype, name, length):
+ def __init__(self, fieldtype, name, length, modern_vla=False):
self.type = 'Array'
self.fieldtype = fieldtype
self.fieldname = name
+ self.modern_vla = modern_vla
if type(length) is str:
self.lengthfield = length
self.length = 0
+ self.vla = True
else:
self.length = length
self.lengthfield = None
+ self.vla = False
def __repr__(self):
return str([self.fieldtype, self.fieldname, self.length,
def __init__(self, fieldtype, name, limit=None):
self.type = 'Field'
self.fieldtype = fieldtype
+
+ if self.fieldtype == 'string':
+ raise ValueError("The string type {!r} is an "
+ "array type ".format(name))
+
if name in keyword.kwlist:
raise ValueError("Fieldname {!r} is a python keyword and is not "
"accessible via the python API. ".format(name))
'''typedef : TYPEDEF ID '{' block_statements_opt '}' ';' '''
p[0] = Typedef(p[2], [], p[4])
+ def p_typedef_flist(self, p):
+ '''typedef : flist TYPEDEF ID '{' block_statements_opt '}' ';' '''
+ p[0] = Typedef(p[3], p[1], p[5])
+
def p_typedef_alias(self, p):
'''typedef : TYPEDEF declaration '''
- p[0] = Using(p[2].fieldname, p[2])
+ p[0] = Using(p[2].fieldname, [], p[2])
+
+ def p_typedef_alias_flist(self, p):
+ '''typedef : flist TYPEDEF declaration '''
+ p[0] = Using(p[3].fieldname, p[1], p[3])
def p_block_statements_opt(self, p):
'''block_statements_opt : block_statements '''
if len(p) == 2:
p[0] = p[1]
else:
- p[0] = { **p[1], **p[2] }
+ p[0] = {**p[1], **p[2]}
def p_field_option(self, p):
- '''field_option : ID '=' assignee ','
+ '''field_option : ID
+ | ID '=' assignee ','
| ID '=' assignee
+
'''
- p[0] = { p[1]: p[3] }
+ if len(p) == 2:
+ p[0] = {p[1]: None}
+ else:
+ p[0] = {p[1]: p[3]}
def p_declaration(self, p):
'''declaration : type_specifier ID ';'
self._parse_error('ERROR')
self.fields.append(p[2])
+ def p_declaration_array_vla(self, p):
+ '''declaration : type_specifier ID '[' ']' ';' '''
+ p[0] = Array(p[1], p[2], 0, modern_vla=True)
+
def p_declaration_array(self, p):
'''declaration : type_specifier ID '[' NUM ']' ';'
| type_specifier ID '[' ID ']' ';' '''
+
if len(p) != 7:
return self._parse_error(
'array: %s' % p.value,
def p_option(self, p):
'''option : OPTION ID '=' assignee ';' '''
- p[0] = Option([p[1], p[2], p[4]])
+ p[0] = Option(p[2], p[4])
def p_assignee(self, p):
'''assignee : NUM
def p_union(self, p):
'''union : UNION ID '{' block_statements_opt '}' ';' '''
- p[0] = Union(p[2], p[4])
+ p[0] = Union(p[2], [], p[4])
+
+ def p_union_flist(self, p):
+ '''union : flist UNION ID '{' block_statements_opt '}' ';' '''
+ p[0] = Union(p[3], p[1], p[5])
# Error rule for syntax errors
def p_error(self, p):
isinstance(o, Union)):
s['types'].append(o)
elif isinstance(o, Using):
- s['Alias'][o.name] = o.alias
+ s['Alias'][o.name] = o
else:
if tname not in s:
raise ValueError('Unknown class type: {} {}'
isinstance(o, Using)):
continue
if isinstance(o, Import):
+ result.append(o)
self.process_imports(o.result, True, result)
else:
result.append(o)
try:
crc = crc_block_combine(t.block, crc)
return foldup_blocks(t.block, crc)
- except:
+ except AttributeError:
pass
return crc
# Build a list of objects. Hash of lists.
result = []
- parser.process_imports(parsed_objects, False, result)
- s = parser.process(result)
+
+ if args.output_module == 'C':
+ s = parser.process(parsed_objects)
+ else:
+ parser.process_imports(parsed_objects, False, result)
+ s = parser.process(result)
# Add msg_id field
s['Define'] = add_msg_id(s['Define'])