# Copyright 2016-2017 The Meson development team
# Licensed under the Apache License, Version 2.0 (the "License");
# you may not use this file except in compliance with the License.
# You may obtain a copy of the License at
# http://www.apache.org/licenses/LICENSE-2.0
# Unless required by applicable law or agreed to in writing, software
# distributed under the License is distributed on an "AS IS" BASIS,
# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
# See the License for the specific language governing permissions and
# limitations under the License.
# This class contains the basic functionality needed to run any interpreter
# or an interpreter-based tool.
from . import mparser , mesonlib , mlog
from . import environment , dependencies
import os , copy , re
from functools import wraps
# Decorators for method calls.
def check_stringlist ( a , msg = ' Arguments must be strings. ' ) :
if not isinstance ( a , list ) :
mlog . debug ( ' Not a list: ' , str ( a ) )
raise InvalidArguments ( ' Argument not a list. ' )
if not all ( isinstance ( s , str ) for s in a ) :
mlog . debug ( ' Element not a string: ' , str ( a ) )
raise InvalidArguments ( msg )
def noPosargs ( f ) :
@wraps ( f )
def wrapped ( self , node , args , kwargs ) :
if len ( args ) != 0 :
raise InvalidArguments ( ' Function does not take positional arguments. ' )
return f ( self , node , args , kwargs )
return wrapped
def noKwargs ( f ) :
@wraps ( f )
def wrapped ( self , node , args , kwargs ) :
if len ( kwargs ) != 0 :
raise InvalidArguments ( ' Function does not take keyword arguments. ' )
return f ( self , node , args , kwargs )
return wrapped
def stringArgs ( f ) :
@wraps ( f )
def wrapped ( self , node , args , kwargs ) :
assert ( isinstance ( args , list ) )
check_stringlist ( args )
return f ( self , node , args , kwargs )
return wrapped
class InterpreterException ( mesonlib . MesonException ) :
pass
class InvalidCode ( InterpreterException ) :
pass
class InvalidArguments ( InterpreterException ) :
pass
class InterpreterObject :
def __init__ ( self ) :
self . methods = { }
def method_call ( self , method_name , args , kwargs ) :
if method_name in self . methods :
return self . methods [ method_name ] ( args , kwargs )
raise InvalidCode ( ' Unknown method " %s " in object. ' % method_name )
class MutableInterpreterObject ( InterpreterObject ) :
def __init__ ( self ) :
super ( ) . __init__ ( )
class InterpreterBase :
def __init__ ( self , source_root , subdir ) :
self . source_root = source_root
self . funcs = { }
self . builtin = { }
self . subdir = subdir
self . variables = { }
self . argument_depth = 0
def load_root_meson_file ( self ) :
mesonfile = os . path . join ( self . source_root , self . subdir , environment . build_filename )
if not os . path . isfile ( mesonfile ) :
raise InvalidArguments ( ' Missing Meson file in %s ' % mesonfile )
with open ( mesonfile , encoding = ' utf8 ' ) as mf :
code = mf . read ( )
if len ( code . strip ( ) ) == 0 :
raise InvalidCode ( ' Builder file is empty. ' )
assert ( isinstance ( code , str ) )
try :
self . ast = mparser . Parser ( code , self . subdir ) . parse ( )
except mesonlib . MesonException as me :
me . file = environment . build_filename
raise me
def parse_project ( self ) :
"""
Parses project ( ) and initializes languages , compilers etc . Do this
early because we need this before we parse the rest of the AST .
"""
self . evaluate_codeblock ( self . ast , end = 1 )
def sanity_check_ast ( self ) :
if not isinstance ( self . ast , mparser . CodeBlockNode ) :
raise InvalidCode ( ' AST is of invalid type. Possibly a bug in the parser. ' )
if len ( self . ast . lines ) == 0 :
raise InvalidCode ( ' No statements in code. ' )
first = self . ast . lines [ 0 ]
if not isinstance ( first , mparser . FunctionNode ) or first . func_name != ' project ' :
raise InvalidCode ( ' First statement must be a call to project ' )
def run ( self ) :
# Evaluate everything after the first line, which is project() because
# we already parsed that in self.parse_project()
self . evaluate_codeblock ( self . ast , start = 1 )
def evaluate_codeblock ( self , node , start = 0 , end = None ) :
if node is None :
return
if not isinstance ( node , mparser . CodeBlockNode ) :
e = InvalidCode ( ' Tried to execute a non-codeblock. Possibly a bug in the parser. ' )
e . lineno = node . lineno
e . colno = node . colno
raise e
statements = node . lines [ start : end ]
i = 0
while i < len ( statements ) :
cur = statements [ i ]
try :
self . evaluate_statement ( cur )
except Exception as e :
if not ( hasattr ( e , ' lineno ' ) ) :
e . lineno = cur . lineno
e . colno = cur . colno
e . file = os . path . join ( self . subdir , ' meson.build ' )
raise e
i + = 1 # In THE FUTURE jump over blocks and stuff.
def evaluate_statement ( self , cur ) :
if isinstance ( cur , mparser . FunctionNode ) :
return self . function_call ( cur )
elif isinstance ( cur , mparser . AssignmentNode ) :
return self . assignment ( cur )
elif isinstance ( cur , mparser . MethodNode ) :
return self . method_call ( cur )
elif isinstance ( cur , mparser . StringNode ) :
return cur . value
elif isinstance ( cur , mparser . BooleanNode ) :
return cur . value
elif isinstance ( cur , mparser . IfClauseNode ) :
return self . evaluate_if ( cur )
elif isinstance ( cur , mparser . IdNode ) :
return self . get_variable ( cur . value )
elif isinstance ( cur , mparser . ComparisonNode ) :
return self . evaluate_comparison ( cur )
elif isinstance ( cur , mparser . ArrayNode ) :
return self . evaluate_arraystatement ( cur )
elif isinstance ( cur , mparser . NumberNode ) :
return cur . value
elif isinstance ( cur , mparser . AndNode ) :
return self . evaluate_andstatement ( cur )
elif isinstance ( cur , mparser . OrNode ) :
return self . evaluate_orstatement ( cur )
elif isinstance ( cur , mparser . NotNode ) :
return self . evaluate_notstatement ( cur )
elif isinstance ( cur , mparser . UMinusNode ) :
return self . evaluate_uminusstatement ( cur )
elif isinstance ( cur , mparser . ArithmeticNode ) :
return self . evaluate_arithmeticstatement ( cur )
elif isinstance ( cur , mparser . ForeachClauseNode ) :
return self . evaluate_foreach ( cur )
elif isinstance ( cur , mparser . PlusAssignmentNode ) :
return self . evaluate_plusassign ( cur )
elif isinstance ( cur , mparser . IndexNode ) :
return self . evaluate_indexing ( cur )
elif isinstance ( cur , mparser . TernaryNode ) :
return self . evaluate_ternary ( cur )
elif self . is_elementary_type ( cur ) :
return cur
else :
raise InvalidCode ( " Unknown statement. " )
def evaluate_arraystatement ( self , cur ) :
( arguments , kwargs ) = self . reduce_arguments ( cur . args )
if len ( kwargs ) > 0 :
raise InvalidCode ( ' Keyword arguments are invalid in array construction. ' )
return arguments
def evaluate_notstatement ( self , cur ) :
v = self . evaluate_statement ( cur . value )
if isinstance ( v , mparser . BooleanNode ) :
v = v . value
if not isinstance ( v , bool ) :
raise InterpreterException ( ' Argument to " not " is not a boolean. ' )
return not v
def evaluate_if ( self , node ) :
assert ( isinstance ( node , mparser . IfClauseNode ) )
for i in node . ifs :
result = self . evaluate_statement ( i . condition )
if not ( isinstance ( result , bool ) ) :
raise InvalidCode ( ' If clause {!r} does not evaluate to true or false. ' . format ( result ) )
if result :
self . evaluate_codeblock ( i . block )
return
if not isinstance ( node . elseblock , mparser . EmptyNode ) :
self . evaluate_codeblock ( node . elseblock )
def evaluate_comparison ( self , node ) :
v1 = self . evaluate_statement ( node . left )
v2 = self . evaluate_statement ( node . right )
if self . is_elementary_type ( v1 ) :
val1 = v1
else :
val1 = v1 . value
if self . is_elementary_type ( v2 ) :
val2 = v2
else :
val2 = v2 . value
if node . ctype == ' == ' :
return val1 == val2
elif node . ctype == ' != ' :
return val1 != val2
elif node . ctype == ' < ' :
return val1 < val2
elif node . ctype == ' <= ' :
return val1 < = val2
elif node . ctype == ' > ' :
return val1 > val2
elif node . ctype == ' >= ' :
return val1 > = val2
else :
raise InvalidCode ( ' You broke my compare eval. ' )
def evaluate_andstatement ( self , cur ) :
l = self . evaluate_statement ( cur . left )
if isinstance ( l , mparser . BooleanNode ) :
l = l . value
if not isinstance ( l , bool ) :
raise InterpreterException ( ' First argument to " and " is not a boolean. ' )
if not l :
return False
r = self . evaluate_statement ( cur . right )
if isinstance ( r , mparser . BooleanNode ) :
r = r . value
if not isinstance ( r , bool ) :
raise InterpreterException ( ' Second argument to " and " is not a boolean. ' )
return r
def evaluate_orstatement ( self , cur ) :
l = self . evaluate_statement ( cur . left )
if isinstance ( l , mparser . BooleanNode ) :
l = l . get_value ( )
if not isinstance ( l , bool ) :
raise InterpreterException ( ' First argument to " or " is not a boolean. ' )
if l :
return True
r = self . evaluate_statement ( cur . right )
if isinstance ( r , mparser . BooleanNode ) :
r = r . get_value ( )
if not isinstance ( r , bool ) :
raise InterpreterException ( ' Second argument to " or " is not a boolean. ' )
return r
def evaluate_uminusstatement ( self , cur ) :
v = self . evaluate_statement ( cur . value )
if isinstance ( v , mparser . NumberNode ) :
v = v . value
if not isinstance ( v , int ) :
raise InterpreterException ( ' Argument to negation is not an integer. ' )
return - v
def evaluate_arithmeticstatement ( self , cur ) :
l = self . to_native ( self . evaluate_statement ( cur . left ) )
r = self . to_native ( self . evaluate_statement ( cur . right ) )
if cur . operation == ' add ' :
try :
return l + r
except Exception as e :
raise InvalidCode ( ' Invalid use of addition: ' + str ( e ) )
elif cur . operation == ' sub ' :
if not isinstance ( l , int ) or not isinstance ( r , int ) :
raise InvalidCode ( ' Subtraction works only with integers. ' )
return l - r
elif cur . operation == ' mul ' :
if not isinstance ( l , int ) or not isinstance ( r , int ) :
raise InvalidCode ( ' Multiplication works only with integers. ' )
return l * r
elif cur . operation == ' div ' :
if not isinstance ( l , int ) or not isinstance ( r , int ) :
raise InvalidCode ( ' Division works only with integers. ' )
return l / / r
elif cur . operation == ' mod ' :
if not isinstance ( l , int ) or not isinstance ( r , int ) :
raise InvalidCode ( ' Modulo works only with integers. ' )
return l % r
else :
raise InvalidCode ( ' You broke me. ' )
def evaluate_ternary ( self , node ) :
assert ( isinstance ( node , mparser . TernaryNode ) )
result = self . evaluate_statement ( node . condition )
if not isinstance ( result , bool ) :
raise InterpreterException ( ' Ternary condition is not boolean. ' )
if result :
return self . evaluate_statement ( node . trueblock )
else :
return self . evaluate_statement ( node . falseblock )
def evaluate_foreach ( self , node ) :
assert ( isinstance ( node , mparser . ForeachClauseNode ) )
varname = node . varname . value
items = self . evaluate_statement ( node . items )
if not isinstance ( items , list ) :
raise InvalidArguments ( ' Items of foreach loop is not an array ' )
for item in items :
self . set_variable ( varname , item )
self . evaluate_codeblock ( node . block )
def evaluate_plusassign ( self , node ) :
assert ( isinstance ( node , mparser . PlusAssignmentNode ) )
varname = node . var_name
addition = self . evaluate_statement ( node . value )
# Remember that all variables are immutable. We must always create a
# full new variable and then assign it.
old_variable = self . get_variable ( varname )
if isinstance ( old_variable , str ) :
if not isinstance ( addition , str ) :
raise InvalidArguments ( ' The += operator requires a string on the right hand side if the variable on the left is a string ' )
new_value = old_variable + addition
elif isinstance ( old_variable , int ) :
if not isinstance ( addition , int ) :
raise InvalidArguments ( ' The += operator requires an int on the right hand side if the variable on the left is an int ' )
new_value = old_variable + addition
elif not isinstance ( old_variable , list ) :
raise InvalidArguments ( ' The += operator currently only works with arrays, strings or ints ' )
# Add other data types here.
else :
if isinstance ( addition , list ) :
new_value = old_variable + addition
else :
new_value = old_variable + [ addition ]
self . set_variable ( varname , new_value )
def evaluate_indexing ( self , node ) :
assert ( isinstance ( node , mparser . IndexNode ) )
iobject = self . evaluate_statement ( node . iobject )
if not isinstance ( iobject , list ) :
raise InterpreterException ( ' Tried to index a non-array object. ' )
index = self . evaluate_statement ( node . index )
if not isinstance ( index , int ) :
raise InterpreterException ( ' Index value is not an integer. ' )
if index < - len ( iobject ) or index > = len ( iobject ) :
raise InterpreterException ( ' Index %d out of bounds of array of size %d . ' % ( index , len ( iobject ) ) )
return iobject [ index ]
def function_call ( self , node ) :
func_name = node . func_name
( posargs , kwargs ) = self . reduce_arguments ( node . args )
if func_name in self . funcs :
return self . funcs [ func_name ] ( node , self . flatten ( posargs ) , kwargs )
else :
self . unknown_function_called ( func_name )
def method_call ( self , node ) :
invokable = node . source_object
if isinstance ( invokable , mparser . IdNode ) :
object_name = invokable . value
obj = self . get_variable ( object_name )
else :
obj = self . evaluate_statement ( invokable )
method_name = node . name
args = node . args
if isinstance ( obj , mparser . StringNode ) :
obj = obj . get_value ( )
if isinstance ( obj , str ) :
return self . string_method_call ( obj , method_name , args )
if isinstance ( obj , bool ) :
return self . bool_method_call ( obj , method_name , args )
if isinstance ( obj , int ) :
return self . int_method_call ( obj , method_name , args )
if isinstance ( obj , list ) :
return self . array_method_call ( obj , method_name , self . reduce_arguments ( args ) [ 0 ] )
if not isinstance ( obj , InterpreterObject ) :
raise InvalidArguments ( ' Variable " %s " is not callable. ' % object_name )
( args , kwargs ) = self . reduce_arguments ( args )
if method_name == ' extract_objects ' :
self . validate_extraction ( obj . held_object )
return obj . method_call ( method_name , self . flatten ( args ) , kwargs )
def bool_method_call ( self , obj , method_name , args ) :
obj = self . to_native ( obj )
( posargs , _ ) = self . reduce_arguments ( args )
if method_name == ' to_string ' :
if len ( posargs ) == 0 :
if obj :
return ' true '
else :
return ' false '
elif len ( posargs ) == 2 and isinstance ( posargs [ 0 ] , str ) and isinstance ( posargs [ 1 ] , str ) :
if obj :
return posargs [ 0 ]
else :
return posargs [ 1 ]
else :
raise InterpreterException ( ' bool.to_string() must have either no arguments or exactly two string arguments that signify what values to return for true and false. ' )
elif method_name == ' to_int ' :
if obj :
return 1
else :
return 0
else :
raise InterpreterException ( ' Unknown method " %s " for a boolean. ' % method_name )
def int_method_call ( self , obj , method_name , args ) :
obj = self . to_native ( obj )
( posargs , _ ) = self . reduce_arguments ( args )
if method_name == ' is_even ' :
if len ( posargs ) == 0 :
return obj % 2 == 0
else :
raise InterpreterException ( ' int.is_even() must have no arguments. ' )
elif method_name == ' is_odd ' :
if len ( posargs ) == 0 :
return obj % 2 != 0
else :
raise InterpreterException ( ' int.is_odd() must have no arguments. ' )
else :
raise InterpreterException ( ' Unknown method " %s " for an integer. ' % method_name )
def string_method_call ( self , obj , method_name , args ) :
obj = self . to_native ( obj )
( posargs , _ ) = self . reduce_arguments ( args )
if method_name == ' strip ' :
return obj . strip ( )
elif method_name == ' format ' :
return self . format_string ( obj , args )
elif method_name == ' to_upper ' :
return obj . upper ( )
elif method_name == ' to_lower ' :
return obj . lower ( )
elif method_name == ' underscorify ' :
return re . sub ( r ' [^a-zA-Z0-9] ' , ' _ ' , obj )
elif method_name == ' split ' :
if len ( posargs ) > 1 :
raise InterpreterException ( ' Split() must have at most one argument. ' )
elif len ( posargs ) == 1 :
s = posargs [ 0 ]
if not isinstance ( s , str ) :
raise InterpreterException ( ' Split() argument must be a string ' )
return obj . split ( s )
else :
return obj . split ( )
elif method_name == ' startswith ' or method_name == ' contains ' or method_name == ' endswith ' :
s = posargs [ 0 ]
if not isinstance ( s , str ) :
raise InterpreterException ( ' Argument must be a string. ' )
if method_name == ' startswith ' :
return obj . startswith ( s )
elif method_name == ' contains ' :
return obj . find ( s ) > = 0
return obj . endswith ( s )
elif method_name == ' to_int ' :
try :
return int ( obj )
except Exception :
raise InterpreterException ( ' String {!r} cannot be converted to int ' . format ( obj ) )
elif method_name == ' join ' :
if len ( posargs ) != 1 :
raise InterpreterException ( ' Join() takes exactly one argument. ' )
strlist = posargs [ 0 ]
check_stringlist ( strlist )
return obj . join ( strlist )
elif method_name == ' version_compare ' :
if len ( posargs ) != 1 :
raise InterpreterException ( ' Version_compare() takes exactly one argument. ' )
cmpr = posargs [ 0 ]
if not isinstance ( cmpr , str ) :
raise InterpreterException ( ' Version_compare() argument must be a string. ' )
return mesonlib . version_compare ( obj , cmpr )
raise InterpreterException ( ' Unknown method " %s " for a string. ' % method_name )
def unknown_function_called ( self , func_name ) :
raise InvalidCode ( ' Unknown function " %s " . ' % func_name )
def array_method_call ( self , obj , method_name , args ) :
if method_name == ' contains ' :
return self . check_contains ( obj , args )
elif method_name == ' length ' :
return len ( obj )
elif method_name == ' get ' :
index = args [ 0 ]
if not isinstance ( index , int ) :
raise InvalidArguments ( ' Array index must be a number. ' )
if index < - len ( obj ) or index > = len ( obj ) :
raise InvalidArguments ( ' Array index %s is out of bounds for array of size %d . ' % ( index , len ( obj ) ) )
return obj [ index ]
raise InterpreterException ( ' Arrays do not have a method called " %s " . ' % method_name )
def reduce_arguments ( self , args ) :
assert ( isinstance ( args , mparser . ArgumentNode ) )
if args . incorrect_order ( ) :
raise InvalidArguments ( ' All keyword arguments must be after positional arguments. ' )
self . argument_depth + = 1
reduced_pos = [ self . evaluate_statement ( arg ) for arg in args . arguments ]
reduced_kw = { }
for key in args . kwargs . keys ( ) :
if not isinstance ( key , str ) :
raise InvalidArguments ( ' Keyword argument name is not a string. ' )
a = args . kwargs [ key ]
reduced_kw [ key ] = self . evaluate_statement ( a )
if not isinstance ( reduced_pos , list ) :
reduced_pos = [ reduced_pos ]
self . argument_depth - = 1
return reduced_pos , reduced_kw
def flatten ( self , args ) :
if isinstance ( args , mparser . StringNode ) :
return args . value
if isinstance ( args , ( int , str , mesonlib . File , InterpreterObject ) ) :
return args
result = [ ]
for a in args :
if isinstance ( a , list ) :
rest = self . flatten ( a )
result = result + rest
elif isinstance ( a , mparser . StringNode ) :
result . append ( a . value )
else :
result . append ( a )
return result
def assignment ( self , node ) :
assert ( isinstance ( node , mparser . AssignmentNode ) )
if self . argument_depth != 0 :
raise InvalidArguments ( ''' Tried to assign values inside an argument list.
To specify a keyword argument , use : instead of = . ''' )
var_name = node . var_name
if not isinstance ( var_name , str ) :
raise InvalidArguments ( ' Tried to assign value to a non-variable. ' )
value = self . evaluate_statement ( node . value )
value = self . to_native ( value )
if not self . is_assignable ( value ) :
raise InvalidCode ( ' Tried to assign an invalid value to variable. ' )
# For mutable objects we need to make a copy on assignment
if isinstance ( value , MutableInterpreterObject ) :
value = copy . deepcopy ( value )
self . set_variable ( var_name , value )
return None
def set_variable ( self , varname , variable ) :
if variable is None :
raise InvalidCode ( ' Can not assign None to variable. ' )
if not isinstance ( varname , str ) :
raise InvalidCode ( ' First argument to set_variable must be a string. ' )
if not self . is_assignable ( variable ) :
raise InvalidCode ( ' Assigned value not of assignable type. ' )
if re . match ( ' [_a-zA-Z][_0-9a-zA-Z]*$ ' , varname ) is None :
raise InvalidCode ( ' Invalid variable name: ' + varname )
if varname in self . builtin :
raise InvalidCode ( ' Tried to overwrite internal variable " %s " ' % varname )
self . variables [ varname ] = variable
def get_variable ( self , varname ) :
if varname in self . builtin :
return self . builtin [ varname ]
if varname in self . variables :
return self . variables [ varname ]
raise InvalidCode ( ' Unknown variable " %s " . ' % varname )
def to_native ( self , arg ) :
if isinstance ( arg , ( mparser . StringNode , mparser . NumberNode ,
mparser . BooleanNode ) ) :
return arg . value
return arg
def is_assignable ( self , value ) :
return isinstance ( value , ( InterpreterObject , dependencies . Dependency ,
str , int , list , mesonlib . File ) )
def func_build_target ( self , node , args , kwargs ) :
if ' target_type ' not in kwargs :
raise InterpreterException ( ' Missing target_type keyword argument ' )
target_type = kwargs . pop ( ' target_type ' )
if target_type == ' executable ' :
return self . func_executable ( node , args , kwargs )
elif target_type == ' shared_library ' :
return self . func_shared_lib ( node , args , kwargs )
elif target_type == ' static_library ' :
return self . func_static_lib ( node , args , kwargs )
elif target_type == ' library ' :
return self . func_library ( node , args , kwargs )
elif target_type == ' jar ' :
return self . func_jar ( node , args , kwargs )
else :
raise InterpreterException ( ' Unknown target_type. ' )
def func_set_variable ( self , node , args , kwargs ) :
if len ( args ) != 2 :
raise InvalidCode ( ' Set_variable takes two arguments. ' )
varname = args [ 0 ]
value = self . to_native ( args [ 1 ] )
self . set_variable ( varname , value )
# @noKwargs
def func_get_variable ( self , node , args , kwargs ) :
if len ( args ) < 1 or len ( args ) > 2 :
raise InvalidCode ( ' Get_variable takes one or two arguments. ' )
varname = args [ 0 ]
if not isinstance ( varname , str ) :
raise InterpreterException ( ' First argument must be a string. ' )
try :
return self . variables [ varname ]
except KeyError :
pass
if len ( args ) == 2 :
return args [ 1 ]
raise InterpreterException ( ' Tried to get unknown variable " %s " . ' % varname )
@stringArgs
@noKwargs
def func_is_variable ( self , node , args , kwargs ) :
if len ( args ) != 1 :
raise InvalidCode ( ' Is_variable takes two arguments. ' )
varname = args [ 0 ]
return varname in self . variables
def is_elementary_type ( self , v ) :
return isinstance ( v , ( int , float , str , bool , list ) )