class FUNCTION_CALL_N
Summary
For calls with more than one argument : "bar.foo(...)". For other calls, use CALL_0 or CALL_1.
Direct parents
Inherit list: FUNCTION_CALL
Class invariant
Overview
Creation features
{ANY}
Features
{ANY}
{FUNCTION_CALL_N}
{ANY}
{}
{ANY}
{FEATURE_CALL, IMPLICIT_CAST, C_TARGET_MAPPER}
{CODE, EFFECTIVE_ARG_LIST}
{EIFFEL_PARSER}
{}
{ANY}
For pretty and short:
{ANY}
{ANY}
{ANY}
{}
{ANY}
{ACE}
  • is_launcher: BOOLEAN
    If True, the clusters list will not be retrieved (it means that the tool is only used to start other tools; it does not load classes itself)
{SE, COMPILE}
{}
{SMART_EIFFEL, SYSTEM_TOOLS, VISITOR}
{ANY}
an option to minimize generic types
{}
Hard-coded class names:
{}
Hard coded feature names:
{}
Operator/Infix/Prefix/Alias list:
{}
Other names:
{}
The keywords section:
{}
Most of them are message parts:
{}
Some other names:
{}
The known keys of the INI file:
{}
{FEATURE_CALL}
{}
{FEATURE_CALL, CREATE_SUPPORT, AGENT_CREATION}
{ANY}
{FEATURE_CALL, CREATE_SUPPORT, FEATURE_STAMP, E_PROCEDURE, AGENT_CREATION, EXTERNAL_PROCEDURE, ASSIGNMENT}
{ANY}
{}
{}
extra_bracket_flag: BOOLEAN
is False
constant attribute
{ANY}
True when we do have to add an extra pair of brackets if the Current expression is the target of a call.
As an example, this is True for infix calls. (This feature is used for pretty as well as for short). As another example, it is also true (-1).foo because of the usual low priority of prefix minus.
arguments: EFFECTIVE_ARG_LIST
writable attribute
{ANY}
Arguments of the call if any.
ensure
  • Result = Void or else Result.count > 0
set_arguments (a: EFFECTIVE_ARG_LIST)
effective procedure
{ANY}
ensure
  • arguments = a
precedence: INTEGER_32
effective function
{ANY}
Handling of precedence (priority of expressions).
ensure
  • 1 <= Result and Result <= atomic_precedence
arg_count: INTEGER_32
effective function
{ANY}
The arguments count or 0.
ensure
  • Result >= 0
specialize_in (type: TYPE): FUNCTION_CALL_N
effective function
{ANY}
--------- Duplicate code call_1/proc_call_1/call_n/proc_call_n -----------
require
  • start_position.class_text = type.class_text
ensure
specialize_thru (parent_type: TYPE, parent_edge: PARENT_EDGE, new_type: TYPE): FUNCTION_CALL_N
effective function
{ANY}
--------- Duplicate code call_1/proc_call_1/call_n/proc_call_n -----------
require
  • has_been_specialized
  • start_position.class_text /= new_type.class_text
  • new_type.direct_thru_step(parent_type, parent_edge)
ensure
specialize_and_check (type: TYPE): EXPRESSION
effective function
{ANY}
--------- Duplicate code call_1/proc_call_1/call_n/proc_call_n -----------
require
  • has_been_specialized
  • not smart_eiffel.status.is_specializing
  • may_report_an_error: error_handler.is_empty
ensure
  • has_been_specialized
  • Result.has_been_specialized
  • may_report_an_error: error_handler.is_empty
reset_feature_stamp
effective procedure
set_target_and_arg (t: EXPRESSION, arg: EFFECTIVE_ARG_LIST)
effective procedure
effective procedure
simplify (type: TYPE): EXPRESSION
frozen
effective function
{ANY}
May return Current, Void or a simplified version of Current.
require
  • type /= Void
  • not smart_eiffel.pretty_flag
  • not smart_eiffel.short_or_class_check_flag
  • smart_eiffel.status.collecting_done
ensure
  • Result.is_an_acceptable_replacement(type, Current)
  • Result /= Current or Result = Void implies smart_eiffel.magic_count > old smart_eiffel.magic_count
  • Result = Current implies smart_eiffel.magic_count = old smart_eiffel.magic_count
bracketed_pretty (indent_level: INTEGER_32)
effective procedure
{ANY}
For pretty.
Add a bracket pair around Current only when it is necessary.
pretty (indent_level: INTEGER_32)
effective procedure
{ANY}
require
  • smart_eiffel.pretty_flag implies indent_level >= 1
short (type: TYPE)
effective procedure
{ANY}
Produce the short command output in the given context type.
require
  • type /= Void
short_target (type: TYPE)
effective procedure
{ANY}
Produce the short command output in the given context type.
Same as short, but here, the Current expression is itself the target of some call, hence this call may add a dot (".") only when it is needed.
require
  • type /= Void
accept (visitor: FUNCTION_CALL_N_VISITOR)
effective procedure
{ANY}
Accept to be visited by the visitor.
require
  • visitor /= Void
effective procedure
{}
require
  • t /= Void
  • sn /= Void
  • a.count > 1
ensure
is_writable: BOOLEAN
is False
constant attribute
{ANY}
Is is something that one can find on the left-hand-side of the := operator ?
is_current: BOOLEAN
is False
constant attribute
{ANY}
Is it a Current like expression (really written Current or some implicit not-written Current)?
is_implicit_current: BOOLEAN
is False
constant attribute
{ANY}
Is it an implicit Current (i.e., not explicitly written)?
ensure
  • Result implies is_current
is_manifest_string: BOOLEAN
is False
constant attribute
{ANY}
Is it a manifest string (i.e. a basic manifest string or some verbatim manifest string)?
is_result: BOOLEAN
is False
constant attribute
{ANY}
Is it the pseudo local variable Result ?
is_void: BOOLEAN
is False
constant attribute
{ANY}
Is it the built-in Void?
is_static: BOOLEAN
is False
constant attribute
{ANY}
True if the expression has always the same static value regardless the context of the code.
For example, this is True for True, False, Void, 2, "foo", 2.5, etc.
resolve_in (type: TYPE): TYPE
effective function
{ANY}
This method may be called to solve the Current expression type knowing that the Current expression has_been_specialized for the type given as an argument.
It is important to keep in mind that the resolve_in function must not be called from some specialize_in or specialize_thru function (those functions are used when *one* TYPE is created and current expression may refer to TYPEs not yet created). Hence, resolve_in calls are likely to occurs during the specialize_and_check process or later if it is necessary, but specialize_and_check *must* have been called on Current expression before resolve_in is called. One may also know that resolve_in function may be called one or more times or may not be called at all. (Note that the require assertion is checking that we are not currently doing some specialize_in or specialize_thru.)
require
  • has_been_specialized
  • not smart_eiffel.status.is_specializing
  • no_type_for_void: not is_void
ensure
  • Result /= Void
declaration_type: TYPE
effective function
{ANY}
The static type one can deduce from the declaration written in source text.
As inheritance and redefinitions are ignored, it's the type to use for a lookup (for a method with this expression as target).
require
  • has_been_specialized
  • not smart_eiffel.status.is_specializing
  • no_type_for_void: not is_void
ensure
  • Result /= Void
written_declaration_type_mark: TYPE_MARK
effective function
{ANY}
This variant of declaration_type is used to check the left-hand side of "?:=", "::=" or "?=" and the generic creation constraints.
Note: this is the written one i.e. not always a static one.
require
  • assignment_test_family_only: is_writable
  • has_been_specialized
  • not smart_eiffel.status.is_specializing
ensure
  • Result /= Void
non_void_no_dispatch_type (type: TYPE): TYPE
frozen
effective function
{ANY}
A non Void Result indicates that Current cannot be Void and that Current drives exactly to a single possible dynamic TYPE.
require
  • type /= Void
  • smart_eiffel.status.collecting_done
ensure
  • Result /= Void implies Result.live_type /= Void
pretty_target (indent_level: INTEGER_32)
effective procedure
{ANY}
For pretty.
Print the expression viewed as a target plus the corresponding dot when it necessary.
has_been_specialized: BOOLEAN
effective function
{ANY}
Used both for specialize_in and specialize_thru to indicate that we have all FEATURE_STAMPs ready for use and that FEATURE_NAMEs are no longer used (except for calls on non-current target who are available after specialize_and_check -- step).
Finally, also note that the purpose of this feature is mostly to write contracts (see also the strange ensure assertion).
ensure
  • assertion_check_only: Result
extra_local_expanded (type: TYPE): TYPE
effective function
Assuming that Current is used as some target, if some extra local variable is required, the corresponding user's expanded type is returned.
require ensure
  • Result /= Void implies Result.is_user_expanded
creation_type: TYPE_MARK
effective function
Must be set to avoid the standard check.
(Only used by CREATE_SUPPORT.)
inline_dynamic_dispatch_ (code_accumulator: CODE_ACCUMULATOR, type: TYPE)
effective procedure
require
  • code_accumulator /= Void
  • type /= Void
ensure
  • code_accumulator.context_level = old code_accumulator.context_level
is_assigned_to: BOOLEAN
writable attribute
set_assigned_to
effective procedure
written_declaration_type_mark_memory: TYPE_MARK
writable attribute
{}
function_check (type: TYPE, af: ANONYMOUS_FEATURE): BOOLEAN
frozen
effective function
{}
Check that the feature found is really a function.
Returns False if the function is in fact an agent creation.
require
  • af /= Void
true_or_false (boolean: BOOLEAN): EXPRESSION
frozen
effective function
{}
(Often used by simplify.)
is_default_value: BOOLEAN
frozen
effective function
{ANY}
True if Current represents Void, False , 0, or whatever is a default value.
Also note that some default values like NULL_POINTER, cannot be written in pure Eiffel. (Thanks to the new ?:= operator, this is_default_value frozen definition is pretty fine.)
is_stored_in_some_local_variable: BOOLEAN
frozen
effective function
{ANY}
True if Current is stored in some local variable of the _target_ language.
It does not mean that Current is writable! The goal here is to avoid creating an extra local storage in the _target_ language.
collect (type: TYPE): TYPE
deferred function
{ANY}
Collect Current to become actually true live code in type knowing that Current already specialized in type.
The Result is used for EXPRESSION only to indicates its TYPE in the type context. Feature collect may be call more than once on the same target until for example the magic_count to be stabilized. Also note that, when not Void, the Result must be the one given by a similar resolve_in call.
      • AS THE NEW collect NOW ACCEPT VOID AS A TARGET, IT
      • CAN BE COOL TO TRACK is_void CALL PROTECTIONS.
      • (Dom April 6th 2008)
require
  • has_been_specialized
  • type.feature_collection_done
  • smart_eiffel.status.is_collecting
  • not smart_eiffel.status.is_specializing
ensure
static_simplify: EXPRESSION
effective function
{ANY}
This one is working completely out of context and is called directly by the parser only for some typical expressions.
require ensure
  • Result /= Void
base_class_written: CLASS_TEXT
frozen
effective function
{ANY}
The base class where this expression is written.
require
written_in: CLASS_NAME
frozen
effective function
{ANY}
The name of the base class where this expression is written.
require
is_an_acceptable_replacement (type: TYPE, other: EXPRESSION): BOOLEAN
frozen
effective function
{ANY}
Well, it is just for debug (see ensure).
ensure
  • assertion_check_only: Result
inline_dynamic_dispatch (code_accumulator: CODE_ACCUMULATOR, type: TYPE): EXPRESSION
frozen
effective function
{ANY}
require
  • code_accumulator /= Void
  • type /= Void
ensure
  • code_accumulator.context_level = old code_accumulator.context_level
  • Result /= Void
bracketed_short (type: TYPE)
frozen
effective procedure
{ANY}
require
  • type /= Void
start_position: POSITION
deferred function
{ANY}
Of the left-most character of Current.
ensure
  • not Result.is_unknown
specialize_without_checks (type: TYPE): CODE
effective function
{ANY}
Perform specialize_and_check without checking the validity (export violations, ...)
Useful for generated code
require ensure
side_effect_free (type: TYPE): BOOLEAN
deferred function
{ANY}
True when the evaluation of Current has no side effect at all (i.e. no memory allocated, no modification in the _heap_ memory, no external code with possible side effect).
Actually, when side_effect_free is True, Current can be evaluated more than once or not evaluated at all.
require
use_current (type: TYPE): BOOLEAN
deferred function
{ANY}
Is Current used?
require
to_expression: EXPRESSION
effective function
{ANY}
Safe down-casting.
require
  • Current
to_instruction: INSTRUCTION
effective function
{ANY}
Safe down-casting.
require
  • Current
is_not_a_compound: BOOLEAN
frozen
effective function
{ANY}
Mostly for assertion checks.
ensure
  • Result = not Current
adapt_for (type: TYPE): FUNCTION_CALL_N
deferred function
{ANY}
This function is called only once at the end of the compilation process (i.e. after collect inline_dynamic_dispatch and simplify).
During this last step RUN_FEATUREs are prepared too.
require ensure
  • Result /= Void
safety_check (type: TYPE)
deferred procedure
{ANY}
require
  • smart_eiffel.status.is_safety_checking
  • type.live_type /= Void
inline_dynamic_dispatch_of (code_accumulator: CODE_ACCUMULATOR, type: TYPE, l: FAST_ARRAY[EXPRESSION]): FAST_ARRAY[EXPRESSION]
effective function
{}
require
  • not l.is_empty
ensure
  • Result.count = l.count
smart_eiffel: SMART_EIFFEL
frozen
once function
{ANY}
eiffel_parser: EIFFEL_PARSER
frozen
once function
{ANY}
ace: ACE
frozen
once function
{ANY}
ini_parser: INI_PARSER
frozen
once function
{ANY}
plugin_config: INI_PARSER
frozen
once function
{ANY}
error_handler: ERROR_HANDLER
frozen
once function
{ANY}
string_aliaser: STRING_ALIASER
frozen
once function
{ANY}
frozen
once function
{ANY}
pretty_printer: PRETTY_PRINTER
frozen
once function
{ANY}
mini_buffer: MINI_BUFFER
frozen
once function
{ANY}
nb_errors: INTEGER_32
effective function
{ANY}
ensure
  • Result >= 0
system_tools: SYSTEM_TOOLS
frozen
once function
{ANY}
introspection_handler: INTROSPECTION_HANDLER
frozen
once function
{ANY}
assignment_test_pool: ASSIGNMENT_TEST_POOL
frozen
once function
{ANY}
precomputable_routine_detector: PRECOMPUTABLE_ROUTINE_DETECTOR
frozen
once function
{ANY}
feature_accumulator: FEATURE_ACCUMULATOR
frozen
once function
{ANY}
live_type_extra_collectors: FAST_ARRAY[LIVE_TYPE_EXTRA_COLLECTOR]
frozen
once function
{ANY}
is_launcher: BOOLEAN
effective function
{ACE}
If True, the clusters list will not be retrieved (it means that the tool is only used to start other tools; it does not load classes itself)
set_launcher
effective procedure
ensure
is_launcher_memory: REFERENCE[BOOLEAN]
once function
{}
parser_buffer: PARSER_BUFFER
frozen
once function
id_provider: ID_PROVIDER
frozen
once function
{ANY}
manifest_string_pool: MANIFEST_STRING_POOL
frozen
once function
{ANY}
manifest_generic_pool: MANIFEST_GENERIC_POOL
frozen
once function
{ANY}
once_routine_pool: ONCE_ROUTINE_POOL
frozen
once function
{ANY}
agent_pool: AGENT_POOL
frozen
once function
{ANY}
cecil_pool: CECIL_POOL
frozen
effective function
{ANY}
cecil_pool_memory: REFERENCE[CECIL_POOL]
frozen
once function
{ANY}
set_cecil_pool
frozen
once procedure
{ANY}
ensure
short_printer: SHORT_PRINTER
frozen
once function
{ANY}
echo: ECHO
frozen
once function
{ANY}
assignment_handler: ASSIGNMENT_HANDLER
frozen
once function
{ANY}
thread_pool: THREAD_POOL
frozen
once function
{ANY}
exceptions: EXCEPTIONS
frozen
writable attribute
{ANY}
exceptions_handler: EXCEPTIONS_HANDLER
frozen
once function
{ANY}
nb_warnings: INTEGER_32
effective function
{ANY}
ensure
  • Result >= 0
tmp_path: STRING
once function
{ANY}
tmp_file_read: TEXT_FILE_READ
once function
{ANY}
class_any: CLASS_TEXT
once function
{ANY}
omitted_client_list: CLIENT_LIST
frozen
once function
{ANY}
(To avoid multiple creation(s).)
any_default_create_fs: FEATURE_STAMP
once function
{ANY}
any_default_rescue_fs: FEATURE_STAMP
once function
{ANY}
any_copy_fs: FEATURE_STAMP
once function
{ANY}
any_is_equal_fs: FEATURE_STAMP
once function
{ANY}
any_deep_twin_fs: FEATURE_STAMP
once function
{ANY}
any_is_deep_equal_fs: FEATURE_STAMP
once function
{ANY}
boolean_and_then_fs: FEATURE_STAMP
once function
{ANY}
manifest_make_name: HASHED_STRING
once function
{ANY}
manifest_put_name: HASHED_STRING
once function
{ANY}
manifest_semicolon_check_name: HASHED_STRING
once function
{ANY}
manifest_initialize_name: HASHED_STRING
once function
{ANY}
calloc_name: HASHED_STRING
once function
{ANY}
put_name: HASHED_STRING
once function
{ANY}
item_name: HASHED_STRING
once function
{ANY}
is_empty_name: HASHED_STRING
once function
{ANY}
make_name: HASHED_STRING
once function
{ANY}
from_external_sized_copy_name: HASHED_STRING
once function
{ANY}
count_name: HASHED_STRING
once function
{ANY}
storage_name: HASHED_STRING
once function
{ANY}
capacity_name: HASHED_STRING
once function
{ANY}
storage_lower_name: HASHED_STRING
once function
{ANY}
mark_item_name: HASHED_STRING
once function
{ANY}
mark_native_arrays_name: HASHED_STRING
once function
{ANY}
and_then_name: HASHED_STRING
once function
{ANY}
or_else_name: HASHED_STRING
once function
{ANY}
twin_name: HASHED_STRING
once function
{ANY}
copy_name: HASHED_STRING
once function
{ANY}
is_equal_name: HASHED_STRING
once function
{ANY}
deep_twin_name: HASHED_STRING
once function
{ANY}
deep_twin_from_name: HASHED_STRING
once function
{ANY}
is_deep_equal_name: HASHED_STRING
once function
{ANY}
deep_memcmp_name: HASHED_STRING
once function
{ANY}
se_atexit_name: HASHED_STRING
once function
{ANY}
default_rescue_name: HASHED_STRING
once function
{ANY}
default_create_name: HASHED_STRING
once function
{ANY}
flush_name: HASHED_STRING
once function
{ANY}
clear_all_name: HASHED_STRING
once function
{ANY}
from_pointer_name: HASHED_STRING
once function
{ANY}
no_errors: BOOLEAN
effective function
{ANY}
character_coding (c: CHARACTER, str: STRING)
effective procedure
{ANY}
Append in str the Eiffel coding of the character (Table in chapter 25 of ETL, page 423).%%%%%%%%
When the % letter notation exists, it is returned in priority: '%N' gives "%N", '%T' gives "%T", etc. When % letter notation does not exists (not in the ETL table), numbered coding used ("%/1/", "%/2/" etc).
eiffel_suffix: STRING
is ".e"
constant attribute
{ANY}
Eiffel Source file suffix.
c_suffix: STRING
is ".c"
constant attribute
{ANY}
C files suffix.
h_suffix: STRING
is ".h"
constant attribute
{ANY}
Heading C files suffix.
c_plus_plus_suffix: STRING
is ".cpp"
constant attribute
{ANY}
C++ files suffix.
backup_suffix: STRING
is ".bak"
constant attribute
{ANY}
Backup suffix for command pretty.
class_suffix: STRING
is ".class"
constant attribute
{ANY}
dot_precedence: INTEGER_32
is 12
constant attribute
{ANY}
The highest precedence value according to ETL.
atomic_precedence: INTEGER_32
is 13
constant attribute
{ANY}
Used for atomic elements.
append_u1 (str: STRING, u1: INTEGER_32)
effective procedure
{ANY}
append_u2 (str: STRING, u2: INTEGER_32)
effective procedure
{ANY}
append_u4 (str: STRING, u4: INTEGER_32)
effective procedure
{ANY}
is_install: BOOLEAN
effective function
{ANY}
set_install
effective procedure
{ANY}
ensure
install_memory: REFERENCE[BOOLEAN]
once function
{ANY}
unrelated_code: INTEGER_8
is 0
constant attribute
{ANY}
inserts_code: INTEGER_8
is 1
constant attribute
{ANY}
inherits_code: INTEGER_8
is 2
constant attribute
{ANY}
once function
{ANY}
shrink_generic_types: BOOLEAN
effective function
{}
shrink_generic_types_memory: REFERENCE[BOOLEAN]
once function
{}
Set the item to True if you want less generic type duplication
as_any: STRING
is "ANY"
constant attribute
{}
as_array: STRING
is "ARRAY"
constant attribute
{}
as_boolean: STRING
is "BOOLEAN"
constant attribute
{}
as_character: STRING
is "CHARACTER"
constant attribute
{}
as_disposable: STRING
is "DISPOSABLE"
constant attribute
{}
as_exceptions: STRING
is "EXCEPTIONS"
constant attribute
{}
as_fixed_array: STRING
is "FAST_ARRAY"
constant attribute
{}
as_function: STRING
is "FUNCTION"
constant attribute
{}
as_integer_general: STRING
is "INTEGER_GENERAL"
constant attribute
{}
as_integer_8: STRING
is "INTEGER_8"
constant attribute
{}
as_integer_16: STRING
is "INTEGER_16"
constant attribute
{}
as_integer_32: STRING
is "INTEGER_32"
constant attribute
{}
as_integer: STRING
is "INTEGER"
constant attribute
{}
as_integer_64: STRING
is "INTEGER_64"
constant attribute
{}
as_internals: STRING
is "INTERNALS"
constant attribute
{}
as_internals_handler: STRING
is "INTERNALS_HANDLER"
constant attribute
{}
as_native_array: STRING
is "NATIVE_ARRAY"
constant attribute
{}
as_native_array_collector: STRING
is "NATIVE_ARRAY_COLLECTOR"
constant attribute
{}
as_native_array_internals: STRING
is "NATIVE_ARRAY_INTERNALS"
constant attribute
{}
as_natural: STRING
is "NATURAL"
constant attribute
{}
as_natural_8: STRING
is "NATURAL_8"
constant attribute
{}
as_natural_16: STRING
is "NATURAL_16"
constant attribute
{}
as_natural_32: STRING
is "NATURAL_32"
constant attribute
{}
as_natural_64: STRING
is "NATURAL_64"
constant attribute
{}
as_natural_general: STRING
is "NATURAL_GENERAL"
constant attribute
{}
as_platform: STRING
is "PLATFORM"
constant attribute
{}
as_pointer: STRING
is "POINTER"
constant attribute
{}
as_predicate: STRING
is "PREDICATE"
constant attribute
{}
as_procedure: STRING
is "PROCEDURE"
constant attribute
{}
as_real_general: STRING
is "REAL_GENERAL"
constant attribute
{}
as_real_32: STRING
is "REAL_32"
constant attribute
{}
as_real: STRING
is "REAL"
constant attribute
{}
as_real_64: STRING
is "REAL_64"
constant attribute
{}
as_real_80: STRING
is "REAL_80"
constant attribute
{}
as_real_128: STRING
is "REAL_128"
constant attribute
{}
as_real_extended: STRING
is "REAL_EXTENDED"
constant attribute
{}
as_routine: STRING
is "ROUTINE"
constant attribute
{}
as_set: STRING
is "SET"
constant attribute
{}
as_string: STRING
is "STRING"
constant attribute
{}
as_text_file_read: STRING
is "TEXT_FILE_READ"
constant attribute
{}
as_text_file_write: STRING
is "TEXT_FILE_WRITE"
constant attribute
{}
as_thread_context: STRING
is "THREAD_CONTEXT"
constant attribute
{}
as_thread_lock: STRING
is "THREAD_LOCK"
constant attribute
{}
as_tuple: STRING
is "TUPLE"
constant attribute
{}
as_type: STRING
is "TYPE"
constant attribute
{}
as_typed_internals: STRING
is "TYPED_INTERNALS"
constant attribute
{}
as_unicode_string: STRING
is "UNICODE_STRING"
constant attribute
{}
as_weak_reference: STRING
is "WEAK_REFERENCE"
constant attribute
{}
as_a1: STRING
is "a1"
constant attribute
{}
as_add_last: STRING
is "add_last"
constant attribute
{}
as_agent: STRING
is "agent"
constant attribute
{}
as_allocated_bytes: STRING
is "allocated_bytes"
constant attribute
{}
as_alloc_native_data: STRING
is "alloc_native_data"
constant attribute
{}
as_as_16_ne: STRING
is "as_16_ne"
constant attribute
{}
as_as_32_ne: STRING
is "as_32_ne"
constant attribute
{}
as_atan2: STRING
is "atan2"
constant attribute
{}
as_blank: STRING
is "blank"
constant attribute
{}
as_bit_clear: STRING
is "bit_clear"
constant attribute
{}
as_bit_put: STRING
is "bit_put"
constant attribute
{}
as_bit_rotate: STRING
is "bit_rotate"
constant attribute
{}
as_bit_set: STRING
is "bit_set"
constant attribute
{}
as_bit_xor: STRING
is "bit_xor"
constant attribute
{}
as_boolean_bits: STRING
is "Boolean_bits"
constant attribute
{}
as_call: STRING
is "call"
constant attribute
{}
as_calloc: STRING
is "calloc"
constant attribute
{}
as_capacity: STRING
is "capacity"
constant attribute
{}
as_ceiling: STRING
is "ceiling"
constant attribute
{}
as_character_bits: STRING
is "Character_bits"
constant attribute
{}
as_clear_all: STRING
is "clear_all"
constant attribute
{}
as_count: STRING
is "count"
constant attribute
{}
as_code: STRING
is "code"
constant attribute
{}
as_collecting: STRING
is "collecting"
constant attribute
{}
as_collection_off: STRING
is "collection_off"
constant attribute
{}
as_collection_on: STRING
is "collection_on"
constant attribute
{}
as_collector_counter: STRING
is "collector_counter"
constant attribute
{}
as_copy: STRING
is "copy"
constant attribute
{}
as_c_inline_c: STRING
is "c_inline_c"
constant attribute
{}
as_c_inline_h: STRING
is "c_inline_h"
constant attribute
{}
as_default_create: STRING
is "default_create"
constant attribute
{}
as_default_rescue: STRING
is "default_rescue"
constant attribute
{}
as_deep_memcmp: STRING
is "deep_memcmp"
constant attribute
{}
as_deep_twin: STRING
is "deep_twin"
constant attribute
{}
as_deep_twin_from: STRING
is "deep_twin_from"
constant attribute
{}
as_dispose: STRING
is "dispose"
constant attribute
{}
as_die_with_code: STRING
is "die_with_code"
constant attribute
{}
as_element_sizeof: STRING
is "element_sizeof"
constant attribute
{}
as_exception: STRING
is "exception"
constant attribute
{}
as_for_object: STRING
is "for_object"
constant attribute
{}
as_type_can_be_assigned_to_attribute: STRING
is "type_can_be_assigned_to_attribute"
constant attribute
{}
as_type_can_be_assigned_to_item: STRING
is "type_can_be_assigned_to_item"
constant attribute
{}
as_type_attribute_count: STRING
is "type_attribute_count"
constant attribute
{}
as_type_attribute_generator: STRING
is "type_attribute_generator"
constant attribute
{}
as_type_attribute_generating_type: STRING
is "type_attribute_generating_type"
constant attribute
{}
as_type_attribute_is_expanded: STRING
is "type_attribute_is_expanded"
constant attribute
{}
as_type_attribute_name: STRING
is "type_attribute_name"
constant attribute
{}
as_fifth: STRING
is "fifth"
constant attribute
{}
as_first: STRING
is "first"
constant attribute
{}
as_floor: STRING
is "floor"
constant attribute
{}
as_flush: STRING
is "flush"
constant attribute
{}
as_fourth: STRING
is "fourth"
constant attribute
{}
as_force_to_integer_16: STRING
is "force_to_integer_16"
constant attribute
{}
as_force_to_integer_32: STRING
is "force_to_integer_32"
constant attribute
{}
as_force_to_integer_64: STRING
is "force_to_integer_64"
constant attribute
{}
as_force_to_natural_16: STRING
is "force_to_natural_16"
constant attribute
{}
as_force_to_natural_32: STRING
is "force_to_natural_32"
constant attribute
{}
as_force_to_natural_64: STRING
is "force_to_natural_64"
constant attribute
{}
as_force_to_real_32: STRING
is "force_to_real_32"
constant attribute
{}
as_force_to_real_64: STRING
is "force_to_real_64"
constant attribute
{}
as_free_native_data: STRING
is "free_native_data"
constant attribute
{}
as_from_external_sized_copy: STRING
is "from_external_sized_copy"
constant attribute
{}
as_from_pointer: STRING
is "from_pointer"
constant attribute
{}
as_full_collect: STRING
is "full_collect"
constant attribute
{}
as_generating_type: STRING
is "generating_type"
constant attribute
{}
as_generator: STRING
is "generator"
constant attribute
{}
as_io: STRING
is "io"
constant attribute
{}
as_integer_bits: STRING
is "Integer_bits"
constant attribute
{}
as_internals_from_generating_type: STRING
is "internals_from_generating_type"
constant attribute
{}
as_is_basic_expanded_type: STRING
is "is_basic_expanded_type"
constant attribute
{}
as_is_deep_equal: STRING
is "is_deep_equal"
constant attribute
{}
as_is_equal: STRING
is "is_equal"
constant attribute
{}
as_do_at_exit: STRING
is "do_at_exit"
constant attribute
{}
as_is_empty: STRING
is "is_empty"
constant attribute
{}
as_is_finished: STRING
is "is_finished"
constant attribute
{}
as_is_infinity: STRING
is "is_infinity"
constant attribute
{}
as_is_locked: STRING
is "is_locked"
constant attribute
{}
as_is_normal: STRING
is "is_normal"
constant attribute
{}
as_is_not_a_number: STRING
is "is_not_a_number"
constant attribute
{}
as_is_not_null: STRING
is "is_not_null"
constant attribute
{}
as_is_started: STRING
is "is_started"
constant attribute
{}
as_is_subnormal: STRING
is "is_subnormal"
constant attribute
{}
as_item: STRING
is "item"
constant attribute
{}
as_last: STRING
is "last"
constant attribute
{}
as_lock: STRING
is "lock"
constant attribute
{}
as_lower: STRING
is "lower"
constant attribute
{}
as_low_8: STRING
is "low_8"
constant attribute
{}
as_low_16: STRING
is "low_16"
constant attribute
{}
as_low_32: STRING
is "low_32"
constant attribute
{}
as_native_array_internals_from_generating_type: STRING
is "native_array_internals_from_generating_type"
constant attribute
{}
as_make: STRING
is "make"
constant attribute
{}
as_make_blank: STRING
is "make_blank"
constant attribute
{}
as_mark_item: STRING
is "mark_item"
constant attribute
{}
as_mark_native_arrays: STRING
is "mark_native_arrays"
constant attribute
{}
as_minimum_character_code: STRING
is "Minimum_character_code"
constant attribute
{}
as_minimum_double: STRING
is "Minimum_double"
constant attribute
{}
as_minimum_real: STRING
is "Minimum_real"
constant attribute
{}
as_manifest_creation: STRING
is "manifest_creation"
constant attribute
{}
as_manifest_initialize: STRING
is "manifest_initialize"
constant attribute
{}
as_manifest_make: STRING
is "manifest_make"
constant attribute
{}
as_manifest_put: STRING
is "manifest_put"
constant attribute
{}
as_manifest_semicolon_check: STRING
is "manifest_semicolon_check"
constant attribute
{}
as_maximum_character_code: STRING
is "Maximum_character_code"
constant attribute
{}
as_maximum_double: STRING
is "Maximum_double"
constant attribute
{}
as_maximum_real: STRING
is "Maximum_real"
constant attribute
{}
as_native_data: STRING
is "native_data"
constant attribute
{}
as_notify: STRING
is "notify"
constant attribute
{}
as_notify_all: STRING
is "notify_all"
constant attribute
{}
as_object_as_pointer: STRING
is "object_as_pointer"
constant attribute
{}
as_object_attribute: STRING
is "object_attribute"
constant attribute
{}
as_object_invariant: STRING
is "object_invariant"
constant attribute
{}
as_object_memory: STRING
is "object_memory"
constant attribute
{}
as_object_size: STRING
is "object_size"
constant attribute
{}
as_pointer_bits: STRING
is "Pointer_bits"
constant attribute
{}
as_pow_postfix: STRING
is "pow"
constant attribute
{}
as_print: STRING
is "print"
constant attribute
{}
as_print_on: STRING
is "print_on"
constant attribute
{}
as_print_run_time_stack: STRING
is "print_run_time_stack"
constant attribute
{}
as_put: STRING
is "put"
constant attribute
{}
as_put_0: STRING
is "put_0"
constant attribute
{}
as_put_1: STRING
is "put_1"
constant attribute
{}
as_put_16_be: STRING
is "put_16_be"
constant attribute
{}
as_put_16_le: STRING
is "put_16_le"
constant attribute
{}
as_put_16_ne: STRING
is "put_16_ne"
constant attribute
{}
as_put_32_be: STRING
is "put_32_be"
constant attribute
{}
as_put_32_le: STRING
is "put_32_le"
constant attribute
{}
as_put_32_ne: STRING
is "put_32_ne"
constant attribute
{}
as_raise_exception: STRING
is "raise_exception"
constant attribute
{}
as_real_bits: STRING
is "Real_bits"
constant attribute
{}
as_realloc: STRING
is "realloc"
constant attribute
{}
as_rounded: STRING
is "rounded"
constant attribute
{}
as_run: STRING
is "run"
constant attribute
{}
as_same_dynamic_type: STRING
is "same_dynamic_type"
constant attribute
{}
as_second: STRING
is "second"
constant attribute
{}
as_se_argc: STRING
is "se_argc"
constant attribute
{}
as_se_argv: STRING
is "se_argv"
constant attribute
{}
as_se_atexit: STRING
is "se_atexit"
constant attribute
{}
as_se_fault: STRING
is "se_fault"
constant attribute
{}
as_sedb_breakpoint: STRING
is "sedb_breakpoint"
constant attribute
{}
as_set_item: STRING
is "set_item"
constant attribute
{}
as_set_object_attribute: STRING
is "set_object_attribute"
constant attribute
{}
as_signal_number: STRING
is "signal_number"
constant attribute
{}
as_slice_copy: STRING
is "slice_copy"
constant attribute
{}
as_standard_copy: STRING
is "standard_copy"
constant attribute
{}
as_standard_is_equal: STRING
is "standard_is_equal"
constant attribute
{}
as_standard_twin: STRING
is "standard_twin"
constant attribute
{}
as_status: STRING
is "status"
constant attribute
{}
as_std_error: STRING
is "std_error"
constant attribute
{}
as_std_input: STRING
is "std_input"
constant attribute
{}
as_std_output: STRING
is "std_output"
constant attribute
{}
as_stderr: STRING
is "stderr"
constant attribute
{}
as_stdin: STRING
is "stdin"
constant attribute
{}
as_stdout: STRING
is "stdout"
constant attribute
{}
as_storage: STRING
is "storage"
constant attribute
{}
as_storage_lower: STRING
is "storage_lower"
constant attribute
{}
as_third: STRING
is "third"
constant attribute
{}
as_timed_wait: STRING
is "timed_wait"
constant attribute
{}
as_to_character: STRING
is "to_character"
constant attribute
{}
as_to_integer_8: STRING
is "to_integer_8"
constant attribute
{}
as_to_integer_16: STRING
is "to_integer_16"
constant attribute
{}
as_to_integer_32: STRING
is "to_integer_32"
constant attribute
{}
as_to_integer_64: STRING
is "to_integer_64"
constant attribute
{}
as_to_internals: STRING
is "to_internals"
constant attribute
{}
as_to_natural_8: STRING
is "to_natural_8"
constant attribute
{}
as_to_natural_16: STRING
is "to_natural_16"
constant attribute
{}
as_to_natural_32: STRING
is "to_natural_32"
constant attribute
{}
as_to_natural_64: STRING
is "to_natural_64"
constant attribute
{}
as_to_pointer: STRING
is "to_pointer"
constant attribute
{}
as_trace_switch: STRING
is "trace_switch"
constant attribute
{}
as_twin: STRING
is "twin"
constant attribute
{}
as_type_generating_type: STRING
is "type_generating_type"
constant attribute
{}
as_type_generator: STRING
is "type_generator"
constant attribute
{}
as_type_is_expanded: STRING
is "type_is_expanded"
constant attribute
{}
as_type_item_generating_type: STRING
is "type_item_generating_type"
constant attribute
{}
as_type_item_generator: STRING
is "type_item_generator"
constant attribute
{}
as_type_item_is_expanded: STRING
is "type_item_is_expanded"
constant attribute
{}
as_unlock: STRING
is "unlock"
constant attribute
{}
as_upper: STRING
is "upper"
constant attribute
{}
as_valid_generating_type_for_internals: STRING
is "valid_generating_type_for_internals"
constant attribute
{}
as_valid_generating_type_for_native_array_internals: STRING
is "valid_generating_type_for_native_array_internals"
constant attribute
{}
as_wait: STRING
is "wait"
constant attribute
{}
as_with_capacity: STRING
is "with_capacity"
constant attribute
{}
as_and: STRING
is "and"
constant attribute
{}
as_and_then: STRING
is "and then"
constant attribute
{}
as_at: STRING
is "@"
constant attribute
{}
as_backslash_backslash: STRING
is "\\"
constant attribute
{}
as_bit_and: STRING
is "&"
constant attribute
{}
as_bit_not: STRING
is "~"
constant attribute
{}
as_bit_or: STRING
is "|"
constant attribute
{}
as_bit_rotate_left: STRING
is "#<<"
constant attribute
{}
as_bit_rotate_right: STRING
is "#>>"
constant attribute
{}
as_bit_shift_right_unsigned: STRING
is "|>>>"
constant attribute
{}
as_brackets: STRING
is "[]"
constant attribute
{}
as_eq: STRING
is "="
constant attribute
{}
as_ge: STRING
is ">="
constant attribute
{}
as_gt: STRING
is ">"
constant attribute
{}
as_implies: STRING
is "implies"
constant attribute
{}
as_le: STRING
is "<="
constant attribute
{}
as_lt: STRING
is "<"
constant attribute
{}
as_minus: STRING
is "-"
constant attribute
{}
as_muls: STRING
is "*"
constant attribute
{}
as_neq: STRING
is "/="
constant attribute
{}
as_not: STRING
is "not"
constant attribute
{}
as_or: STRING
is "or"
constant attribute
{}
as_or_else: STRING
is "or else"
constant attribute
{}
as_parentheses: STRING
is "()"
constant attribute
{}
as_plus: STRING
is "+"
constant attribute
{}
as_pow: STRING
is "^"
constant attribute
{}
as_sharp_backslash_backslash: STRING
is "#\\"
constant attribute
{}
as_sharp_minus: STRING
is "#-"
constant attribute
{}
as_sharp_muls: STRING
is "#*"
constant attribute
{}
as_sharp_plus: STRING
is "#+"
constant attribute
{}
as_sharp_slash_slash: STRING
is "#//"
constant attribute
{}
as_bit_shift_left: STRING
is "|<<"
constant attribute
{}
as_bit_shift_right: STRING
is "|>>"
constant attribute
{}
as_slash: STRING
is "/"
constant attribute
{}
as_slash_slash: STRING
is "//"
constant attribute
{}
as_xor: STRING
is "xor"
constant attribute
{}
as_arguments: STRING
is "arguments"
constant attribute
{}
as_current: STRING
is "Current"
constant attribute
{}
as_native_array_character: STRING
is "NATIVE_ARRAY[CHARACTER]"
constant attribute
{}
as_last_result: STRING
is "last_result"
constant attribute
{}
as_like_current: STRING
is "like Current"
constant attribute
{}
as_method: STRING
is "method"
constant attribute
{}
as_open_arguments: STRING
is "open_arguments"
constant attribute
{}
as_open_argument_indices: STRING
is "open_argument_indices"
constant attribute
{}
as_open_argument_index: STRING
is "open_argument_index"
constant attribute
{}
as_open_argument_count: STRING
is "open_argument_count"
constant attribute
{}
as_precursor: STRING
is "Precursor"
constant attribute
{}
as_result: STRING
is "Result"
constant attribute
{}
as_target: STRING
is "target"
constant attribute
{}
as_void: STRING
is "Void"
constant attribute
{}
fz_adapt: STRING
is "adapt"
constant attribute
{}
fz_alias: STRING
is "alias"
constant attribute
{}
fz_all: STRING
is "all"
constant attribute
{}
fz_as: STRING
is "as"
constant attribute
{}
fz_assertion: STRING
is "assertion"
constant attribute
{}
fz_assertion_flat_check: STRING
is "assertion_flat_check"
constant attribute
{}
fz_assign: STRING
is "assign"
constant attribute
{}
fz_begin_c_compile: STRING
is "# Beginning of parallelizable section"
constant attribute
{}
fz_boost: STRING
is "boost"
constant attribute
{}
fz_check: STRING
is "check"
constant attribute
{}
fz_class: STRING
is "class"
constant attribute
{}
fz_cluster: STRING
is "cluster"
constant attribute
{}
fz_convert: STRING
is "convert"
constant attribute
{}
fz_create: STRING
is "create"
constant attribute
{}
fz_creation: STRING
is "creation"
constant attribute
{}
fz_debug: STRING
is "debug"
constant attribute
{}
fz_default: STRING
is "default"
constant attribute
{}
fz_deferred: STRING
is "deferred"
constant attribute
{}
fz_do: STRING
is "do"
constant attribute
{}
fz_else: STRING
is "else"
constant attribute
{}
fz_elseif: STRING
is "elseif"
constant attribute
{}
fz_end: STRING
is "end"
constant attribute
{}
fz_end_c_compile: STRING
is "# End of parallelizable section"
constant attribute
{}
fz_ensure: STRING
is "ensure"
constant attribute
{}
fz_exclude: STRING
is "exclude"
constant attribute
{}
fz_expanded: STRING
is "expanded"
constant attribute
{}
fz_export: STRING
is "export"
constant attribute
{}
fz_external: STRING
is "external"
constant attribute
{}
fz_false: STRING
is "False"
constant attribute
{}
fz_feature: STRING
is "feature"
constant attribute
{}
fz_from: STRING
is "from"
constant attribute
{}
fz_frozen: STRING
is "frozen"
constant attribute
{}
fz_generate: STRING
is "generate"
constant attribute
{}
fz_if: STRING
is "if"
constant attribute
{}
fz_include: STRING
is "include"
constant attribute
{}
fz_indexing: STRING
is "indexing"
constant attribute
{}
fz_infix: STRING
is "infix"
constant attribute
{}
fz_inherit: STRING
is "inherit"
constant attribute
{}
fz_insert: STRING
is "insert"
constant attribute
{}
fz_inline: STRING
is "inline"
constant attribute
{}
fz_inspect: STRING
is "inspect"
constant attribute
{}
fz_invariant: STRING
is "invariant"
constant attribute
{}
fz_is: STRING
is "is"
constant attribute
{}
fz_like: STRING
is "like"
constant attribute
{}
fz_local: STRING
is "local"
constant attribute
{}
fz_loop: STRING
is "loop"
constant attribute
{}
fz_no: STRING
is "no"
constant attribute
{}
fz_note: STRING
is "note"
constant attribute
{}
fz_obsolete: STRING
is "obsolete"
constant attribute
{}
fz_old: STRING
is "old"
constant attribute
{}
fz_once: STRING
is "once"
constant attribute
{}
fz_option: STRING
is "option"
constant attribute
{}
fz_prefix: STRING
is "prefix"
constant attribute
{}
fz_redefine: STRING
is "redefine"
constant attribute
{}
fz_rename: STRING
is "rename"
constant attribute
{}
fz_require: STRING
is "require"
constant attribute
{}
fz_rescue: STRING
is "rescue"
constant attribute
{}
fz_retry: STRING
is "retry"
constant attribute
{}
fz_runtime: STRING
is "runtime"
constant attribute
{}
fz_separate: STRING
is "separate"
constant attribute
{}
fz_reference: STRING
is "reference"
constant attribute
{}
fz_then: STRING
is "then"
constant attribute
{}
fz_trace: STRING
is "trace"
constant attribute
{}
fz_true: STRING
is "True"
constant attribute
{}
fz_undefine: STRING
is "undefine"
constant attribute
{}
fz_unique: STRING
is "unique"
constant attribute
{}
fz_until: STRING
is "until"
constant attribute
{}
fz_use: STRING
is "use"
constant attribute
{}
fz_variant: STRING
is "variant"
constant attribute
{}
fz_when: STRING
is "when"
constant attribute
{}
fz_yes: STRING
is "yes"
constant attribute
{}
fz_cad: STRING
is "Cyclic anchored definition."
constant attribute
{}
fz_dtideena: STRING
is " has no compiler-defined `deep_twin' or `is_deep_equal' because the corresponding allocated size is not part of the NATIVE_ARRAY object. The client class of this NATIVE_ARRAY type is supposed to use a `capacity' attribute which contains the corresponding number of allocated items (see STRING or ARRAY for example)."
constant attribute
{}
fz_error_stars: STRING
is "****** "
constant attribute
{}
fz_vuar4: STRING
is "The $ operator must be followed by the final name of a feature which is not a constant attribute or by the name of some local variable as well."
constant attribute
{}
fz_bin: STRING
is "bin"
constant attribute
{}
fz_c_shift_left: STRING
is "<<"
constant attribute
{}
fz_c_shift_right: STRING
is ">>"
constant attribute
{}
fz_install: STRING
is "install"
constant attribute
{}
fz_jobs: STRING
is "jobs"
constant attribute
{}
fz_no_check: STRING
is "no_check"
constant attribute
{}
fz_none: STRING
is "none"
constant attribute
{}
fz_libertyeiffel: STRING
is "LibertyEiffel"
constant attribute
{}
fz_seconf: STRING
is "LIBERTY_CONF"
constant attribute
{}
The environment name pointing to the config file.
fz_conf_general: STRING
is "General"
constant attribute
{}
fz_conf_loadpath: STRING
is "Loadpath"
constant attribute
{}
fz_conf_environment: STRING
is "Environment"
constant attribute
{}
since version 2
fz_conf_se_tools: STRING
is "Tools"
constant attribute
{}
since version 3
fz_conf_bin: STRING
is "bin"
constant attribute
{}
fz_conf_lib: STRING
is "lib"
constant attribute
{}
fz_conf_sys: STRING
is "sys"
constant attribute
{}
fz_conf_short: STRING
is "short"
constant attribute
{}
fz_conf_tools: STRING
is "tools"
constant attribute
{}
fz_conf_os: STRING
is "os"
constant attribute
{}
fz_conf_flavor: STRING
is "flavor"
constant attribute
{}
fz_conf_jobs: STRING
is "jobs"
constant attribute
{}
fz_conf_boost: STRING
is "boost"
constant attribute
{}
fz_conf_no_check: STRING
is "no_check"
constant attribute
{}
fz_conf_require_check: STRING
is "require_check"
constant attribute
{}
fz_conf_ensure_check: STRING
is "ensure_check"
constant attribute
{}
fz_conf_invariant_check: STRING
is "invariant_check"
constant attribute
{}
fz_conf_loop_check: STRING
is "loop_check"
constant attribute
{}
fz_conf_all_check: STRING
is "all_check"
constant attribute
{}
fz_conf_debug_check: STRING
is "debug_check"
constant attribute
{}
fz_conf_flat_check: STRING
is "flat_check"
constant attribute
{}
fz_conf_smarteiffel_options: STRING
is "smarteiffel_options"
constant attribute
{}
fz_conf_undefined: STRING
is "undefined"
constant attribute
{}
fz_conf_tag: STRING
is "tag"
constant attribute
{}
fz_conf_compiler_type: STRING
is "c_compiler_type"
constant attribute
{}
fz_conf_compiler_path: STRING
is "c_compiler_path"
constant attribute
{}
fz_conf_linker_path: STRING
is "c_linker_path"
constant attribute
{}
fz_conf_strip_path: STRING
is "c_strip_path"
constant attribute
{}
fz_conf_compiler_options: STRING
is "c_compiler_options"
constant attribute
{}
fz_conf_linker_options: STRING
is "c_linker_options"
constant attribute
{}
fz_conf_cpp_compiler_type: STRING
is "cpp_compiler_type"
constant attribute
{}
fz_conf_cpp_compiler_path: STRING
is "cpp_compiler_path"
constant attribute
{}
fz_conf_cpp_compiler_options: STRING
is "cpp_compiler_options"
constant attribute
{}
fz_conf_cpp_linker_path: STRING
is "cpp_linker_path"
constant attribute
{}
fz_conf_cpp_strip_path: STRING
is "cpp_strip_path"
constant attribute
{}
fz_conf_cpp_linker_options: STRING
is "cpp_linker_options"
constant attribute
{}
standard_check_export_and_obsolete_calls (type: TYPE, target_type: TYPE, af: ANONYMOUS_FEATURE)
frozen
effective procedure
Called by specialize_and_check when feature_stamp has been defined
require ensure
collect_memory: FAST_ARRAY[TYPE]
writable attribute
{}
set_collected_for (t: TYPE): BOOLEAN
effective function
{}
Debugging purpose only (used in check only)
collected_for (t: TYPE): BOOLEAN
effective function
{}
Use only in check clause.
set_target (t: EXPRESSION)
frozen
effective procedure
require
  • t /= Void
ensure
run_feature_for (type: TYPE): RUN_FEATURE
frozen
effective function
{ANY}
ensure
  • Result /= Void
ensure
feature_stamp: FEATURE_STAMP
writable attribute
{ANY}
The good feature_stamp for the feature in some type (unrelated to like_what due to renamings).
target: EXPRESSION
writable attribute
{ANY}
Target of the call.
feature_name: FEATURE_NAME
writable attribute
{ANY}
Written selector name of the call.
use_current_stack: FAST_ARRAY[ANONYMOUS_FEATURE]
once function
{}
non_void_check (code_accumulator: CODE_ACCUMULATOR, type: TYPE, t: EXPRESSION, target_type: TYPE)
effective procedure
{}
In non -boost mode, add code to check that t holds a non-Void value.
require
  • smart_eiffel.status.is_inlining_dynamic_dispatch
  • t.side_effect_free(type)
  • target_type.is_reference
type_id_check (code_accumulator: CODE_ACCUMULATOR, type: TYPE, t: EXPRESSION, target_live_type: LIVE_TYPE)
effective procedure
{}
In non -boost mode, assuming that t is non Void, add code to check that t really hold holds a target_live_type value.
require
  • smart_eiffel.status.is_inlining_dynamic_dispatch
  • t.side_effect_free(type)
  • target_live_type.type.is_reference
parentheses_feature_name: FEATURE_NAME
effective function
{}
require ensure
  • Result.start_position.is_equal(arguments.start_position)
parentheses_feature_name_memory: FEATURE_NAME
writable attribute
{}