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Source code for galaxy.workflow.modules
"""
Modules used in building workflows
"""
import json
import logging
import re
from collections import defaultdict, OrderedDict
from galaxy import (
exceptions,
model,
web
)
from galaxy.exceptions import ToolMissingException
from galaxy.jobs.actions.post import ActionBox
from galaxy.model import PostJobAction
from galaxy.model.dataset_collections import matching
from galaxy.tool_util.parser.output_objects import ToolExpressionOutput
from galaxy.tools import (
DatabaseOperationTool,
DefaultToolState,
ToolInputsNotReadyException
)
from galaxy.tools.actions import filter_output
from galaxy.tools.execute import execute, MappingParameters, PartialJobExecution
from galaxy.tools.parameters import (
check_param,
params_to_incoming,
visit_input_values
)
from galaxy.tools.parameters.basic import (
BaseDataToolParameter,
BooleanToolParameter,
ColorToolParameter,
ConnectedValue,
DataCollectionToolParameter,
DataToolParameter,
FloatToolParameter,
HiddenToolParameter,
IntegerToolParameter,
is_runtime_value,
parameter_types,
runtime_to_json,
SelectToolParameter,
TextToolParameter,
workflow_building_modes
)
from galaxy.tools.parameters.grouping import (
Conditional,
ConditionalWhen,
)
from galaxy.tools.parameters.history_query import HistoryQuery
from galaxy.tools.parameters.wrapped import make_dict_copy
from galaxy.util import listify, unicodify
from galaxy.util.bunch import Bunch
from galaxy.util.json import safe_loads
from galaxy.util.rules_dsl import RuleSet
from galaxy.util.template import fill_template
from galaxy.util.tool_shed.common_util import get_tool_shed_url_from_tool_shed_registry
log = logging.getLogger(__name__)
# Key into Tool state to describe invocation-specific runtime properties.
RUNTIME_STEP_META_STATE_KEY = "__STEP_META_STATE__"
# Key into step runtime state dict describing invocation-specific post job
# actions (i.e. PJA specified at runtime on top of the workflow-wide defined
# ones.
RUNTIME_POST_JOB_ACTIONS_KEY = "__POST_JOB_ACTIONS__"
NO_REPLACEMENT = NoReplacement()
[docs]class WorkflowModule(object):
[docs] def __init__(self, trans, content_id=None, **kwds):
self.trans = trans
self.content_id = content_id
self.state = DefaultToolState()
# ---- Creating modules from various representations ---------------------
[docs] @classmethod
def from_dict(Class, trans, d, **kwds):
module = Class(trans, **kwds)
input_connections = d.get("input_connections", {})
module.recover_state(d.get("tool_state"), input_connections=input_connections, **kwds)
module.label = d.get("label")
return module
[docs] @classmethod
def from_workflow_step(Class, trans, step, **kwds):
module = Class(trans, **kwds)
module.recover_state(step.tool_inputs, from_tool_form=False)
module.label = step.label
return module
# ---- Saving in various forms ------------------------------------------
# ---- General attributes -----------------------------------------------
[docs] def get_content_id(self):
""" If this component has an identifier external to the step (such
as a tool or another workflow) return the identifier for that content.
"""
return None
# ---- Configuration time -----------------------------------------------
[docs] def get_state(self, nested=True):
""" Return a serializable representation of the persistable state of
the step.
"""
inputs = self.get_inputs()
if inputs:
return self.state.encode(Bunch(inputs=inputs), self.trans.app, nested=nested)
else:
return self.state.inputs
[docs] def recover_state(self, state, **kwds):
"""Recover tool state (as self.state and self.state.inputs) from dictionary describing
configuration state (potentially from persisted step state).
Sub-classes should supply a `default_state` method which contains the
initial state `dict` with key, value pairs for all available attributes.
Input parameter state may be a typed dictionary or a tool state dictionary generated by
the web client (if from_tool_form in kwds is True).
If classes need to distinguish between typed clean dictionary representations
of state and the state generated for tool form (with extra nesting logic in the
state for conditionals, un-typed string parameters, etc...) they should
override the step_state_to_tool_state method to make this transformation.
"""
from_tool_form = kwds.get("from_tool_form", False)
if not from_tool_form:
# I've never seen state here be none except for unit tests so 'or {}' below may only be
# needed due to test bugs. Doesn't hurt anything though.
state = self.step_state_to_tool_state(state or {})
self.state = DefaultToolState()
inputs = self.get_inputs()
if inputs:
self.state.decode(state, Bunch(inputs=inputs), self.trans.app)
else:
self.state.inputs = safe_loads(state) or {}
[docs] def get_errors(self, **kwargs):
""" This returns a step related error message as string or None """
return None
[docs] def get_data_inputs(self):
""" Get configure time data input descriptions. """
return self.get_all_inputs(data_only=True)
[docs] def check_and_update_state(self):
"""
If the state is not in sync with the current implementation of the
module, try to update. Returns a list of messages to be displayed
"""
pass
[docs] def add_dummy_datasets(self, connections=None, steps=None):
""" Replace connected inputs with placeholder/dummy values. """
pass
[docs] def get_config_form(self, step=None):
""" Serializes input parameters of a module into input dictionaries. """
return {
'title' : self.name,
'inputs': [param.to_dict(self.trans) for param in self.get_inputs().values()]
}
# ---- Run time ---------------------------------------------------------
[docs] def get_runtime_inputs(self, **kwds):
""" Used internally by modules and when displaying inputs in workflow
editor and run workflow templates.
"""
return {}
[docs] def compute_runtime_state(self, trans, step=None, step_updates=None):
""" Determine the runtime state (potentially different from self.state
which describes configuration state). This (again unlike self.state) is
currently always a `DefaultToolState` object.
If `step` is not `None`, it will be used to search for default values
defined in workflow input steps.
If `step_updates` is `None`, this is likely for rendering the run form
for instance and no runtime properties are available and state must be
solely determined by the default runtime state described by the step.
If `step_updates` are available they describe the runtime properties
supplied by the workflow runner.
"""
state = self.get_runtime_state()
step_errors = {}
if step is not None:
def update_value(input, context, prefixed_name, **kwargs):
step_input = step.get_input(prefixed_name)
if step_input is None:
return NO_REPLACEMENT
if step_input.default_value_set:
return step_input.default_value
return NO_REPLACEMENT
visit_input_values(self.get_runtime_inputs(), state.inputs, update_value, no_replacement_value=NO_REPLACEMENT)
if step_updates:
def update_value(input, context, prefixed_name, **kwargs):
if prefixed_name in step_updates:
value, error = check_param(trans, input, step_updates.get(prefixed_name), context)
if error is not None:
step_errors[prefixed_name] = error
return value
return NO_REPLACEMENT
visit_input_values(self.get_runtime_inputs(), state.inputs, update_value, no_replacement_value=NO_REPLACEMENT)
return state, step_errors
[docs] def encode_runtime_state(self, runtime_state):
""" Takes the computed runtime state and serializes it during run request creation. """
return runtime_state.encode(Bunch(inputs=self.get_runtime_inputs()), self.trans.app)
[docs] def decode_runtime_state(self, runtime_state):
""" Takes the serialized runtime state and decodes it when running the workflow. """
state = DefaultToolState()
state.decode(runtime_state, Bunch(inputs=self.get_runtime_inputs()), self.trans.app)
return state
[docs] def execute(self, trans, progress, invocation_step, use_cached_job=False):
""" Execute the given workflow invocation step.
Use the supplied workflow progress object to track outputs, find
inputs, etc....
Return a False if there is additional processing required to
on subsequent workflow scheduling runs, None or True means the workflow
step executed properly.
"""
raise TypeError("Abstract method")
[docs] def do_invocation_step_action(self, step, action):
""" Update or set the workflow invocation state action - generic
extension point meant to allows users to interact with interactive
workflow modules. The action object returned from this method will
be attached to the WorkflowInvocationStep and be available the next
time the workflow scheduler visits the workflow.
"""
raise exceptions.RequestParameterInvalidException("Attempting to perform invocation step action on module that does not support actions.")
[docs] def recover_mapping(self, invocation_step, progress):
""" Re-populate progress object with information about connections
from previously executed steps recorded via invocation_steps.
"""
outputs = {}
for output_dataset_assoc in invocation_step.output_datasets:
outputs[output_dataset_assoc.output_name] = output_dataset_assoc.dataset
for output_dataset_collection_assoc in invocation_step.output_dataset_collections:
outputs[output_dataset_collection_assoc.output_name] = output_dataset_collection_assoc.dataset_collection
progress.set_step_outputs(invocation_step, outputs, already_persisted=True)
[docs] def get_replacement_parameters(self, step):
"""Return a list of replacement parameters."""
return []
[docs] def compute_collection_info(self, progress, step, all_inputs):
"""Use get_all_inputs (if implemented) to determine collection mapping for execution.
Hopefully this can be reused for Tool and Subworkflow modules.
"""
collections_to_match = self._find_collections_to_match(
progress, step, all_inputs
)
# Have implicit collections...
if collections_to_match.has_collections():
collection_info = self.trans.app.dataset_collections_service.match_collections(
collections_to_match
)
else:
collection_info = None
return collection_info
def _find_collections_to_match(self, progress, step, all_inputs):
collections_to_match = matching.CollectionsToMatch()
dataset_collection_type_descriptions = self.trans.app.dataset_collections_service.collection_type_descriptions
for input_dict in all_inputs:
name = input_dict["name"]
data = progress.replacement_for_input(step, input_dict)
can_map_over = hasattr(data, "collection") # and data.collection.allow_implicit_mapping
if not can_map_over:
continue
is_data_param = input_dict["input_type"] == "dataset"
if is_data_param:
multiple = input_dict["multiple"]
if multiple:
# multiple="true" data input, acts like "list" collection_type.
# just need to figure out subcollection_type_description
history_query = HistoryQuery.from_collection_types(
['list'],
dataset_collection_type_descriptions,
)
subcollection_type_description = history_query.can_map_over(data)
if subcollection_type_description:
collections_to_match.add(name, data, subcollection_type=subcollection_type_description)
else:
collections_to_match.add(name, data)
continue
is_data_collection_param = input_dict["input_type"] == "dataset_collection"
if is_data_collection_param:
history_query = HistoryQuery.from_collection_types(
input_dict.get("collection_types", None),
dataset_collection_type_descriptions,
)
subcollection_type_description = history_query.can_map_over(data)
if subcollection_type_description:
collections_to_match.add(name, data, subcollection_type=subcollection_type_description.collection_type)
continue
if data is not NO_REPLACEMENT:
collections_to_match.add(name, data)
continue
return collections_to_match
[docs]class SubWorkflowModule(WorkflowModule):
# Two step improvements to build runtime inputs for subworkflow modules
# - First pass verify nested workflow doesn't have an RuntimeInputs
# - Second pass actually turn RuntimeInputs into inputs if possible.
type = "subworkflow"
name = "Subworkflow"
[docs] @classmethod
def from_dict(Class, trans, d, **kwds):
module = super(SubWorkflowModule, Class).from_dict(trans, d, **kwds)
if "subworkflow" in d:
module.subworkflow = d["subworkflow"]
elif "content_id" in d:
from galaxy.managers.workflows import WorkflowsManager
module.subworkflow = WorkflowsManager(trans.app).get_owned_workflow(trans, d["content_id"])
else:
raise Exception("Step associated subworkflow could not be found.")
return module
[docs] @classmethod
def from_workflow_step(Class, trans, step, **kwds):
module = super(SubWorkflowModule, Class).from_workflow_step(trans, step, **kwds)
module.subworkflow = step.subworkflow
return module
[docs] def get_name(self):
if hasattr(self.subworkflow, 'name'):
return self.subworkflow.name
return self.name
[docs] def get_all_inputs(self, data_only=False, connectable_only=False):
""" Get configure time data input descriptions. """
# Filter subworkflow steps and get inputs
step_to_input_type = {
"data_input": "dataset",
"data_collection_input": "dataset_collection",
"parameter_input": "parameter",
}
inputs = []
if hasattr(self.subworkflow, 'input_steps'):
for step in self.subworkflow.input_steps:
name = step.label
if not name:
step_module = module_factory.from_workflow_step(self.trans, step)
name = "%s:%s" % (step.order_index, step_module.get_name())
step_type = step.type
assert step_type in step_to_input_type
input = dict(
input_subworkflow_step_id=step.order_index,
name=name,
label=name,
multiple=False,
extensions=["data"],
input_type=step_to_input_type[step_type],
)
if step.type == 'data_collection_input':
input['collection_type'] = step.tool_inputs.get('collection_type') if step.tool_inputs else None
if step_type == 'parameter_input':
input['type'] = step.tool_inputs['parameter_type']
inputs.append(input)
return inputs
[docs] def get_modules(self):
return [module_factory.from_workflow_step(self.trans, step) for step in self.subworkflow.steps]
[docs] def get_errors(self, **kwargs):
errors = (module.get_errors(include_tool_id=True) for module in self.get_modules())
errors = [e for e in errors if e]
if any(errors):
return errors
return None
[docs] def get_all_outputs(self, data_only=False):
outputs = []
if hasattr(self.subworkflow, 'workflow_outputs'):
from galaxy.managers.workflows import WorkflowContentsManager
workflow_contents_manager = WorkflowContentsManager(self.trans.app)
subworkflow_dict = workflow_contents_manager._workflow_to_dict_editor(trans=self.trans,
stored=self.subworkflow.stored_workflow,
workflow=self.subworkflow,
tooltip=False,
is_subworkflow=True)
for order_index in sorted(subworkflow_dict['steps']):
step = subworkflow_dict['steps'][order_index]
data_outputs = step['outputs']
for workflow_output in step['workflow_outputs']:
label = workflow_output['label']
if not label:
label = "%s:%s" % (order_index, workflow_output['output_name'])
workflow_output_uuid = workflow_output.get('uuid') or object()
for data_output in data_outputs:
data_output_uuid = data_output.get('uuid') or object()
if data_output['name'] == workflow_output['output_name'] or data_output_uuid == workflow_output_uuid:
data_output['label'] = label
data_output['name'] = label
# That's the right data_output
break
else:
# This can happen when importing workflows with missing tools.
# We can't raise an exception here, as that would prevent loading
# the workflow.
log.error("Workflow output '%s' defined, but not listed among data outputs" % workflow_output['output_name'])
continue
outputs.append(data_output)
return outputs
[docs] def execute(self, trans, progress, invocation_step, use_cached_job=False):
""" Execute the given workflow step in the given workflow invocation.
Use the supplied workflow progress object to track outputs, find
inputs, etc...
"""
step = invocation_step.workflow_step
subworkflow_invoker = progress.subworkflow_invoker(trans, step, use_cached_job=use_cached_job)
subworkflow_invoker.invoke()
subworkflow = subworkflow_invoker.workflow
subworkflow_progress = subworkflow_invoker.progress
outputs = {}
for workflow_output in subworkflow.workflow_outputs:
workflow_output_label = workflow_output.label or "%s:%s" % (workflow_output.workflow_step.order_index, workflow_output.output_name)
replacement = subworkflow_progress.get_replacement_workflow_output(workflow_output)
outputs[workflow_output_label] = replacement
progress.set_step_outputs(invocation_step, outputs)
return None
[docs] def get_runtime_inputs(self, connections=None):
inputs = {}
for step in self.subworkflow.steps:
if step.type == "tool":
tool = step.module.tool
tool_inputs = step.module.state
def callback(input, prefixed_name, prefixed_label, value=None, **kwds):
# All data parameters are represented as runtime values, skip them
# here.
if input.type in ['data', 'data_collection']:
return
if is_runtime_value(value) and runtime_to_json(value)["__class__"] != "ConnectedValue":
input_name = "%d|%s" % (step.order_index, prefixed_name)
inputs[input_name] = InputProxy(input, input_name)
visit_input_values(tool.inputs, tool_inputs.inputs, callback)
return inputs
[docs] def get_replacement_parameters(self, step):
"""Return a list of replacement parameters."""
replacement_parameters = set()
for subworkflow_step in self.subworkflow.steps:
module = subworkflow_step.module
for replacement_parameter in module.get_replacement_parameters(subworkflow_step):
replacement_parameters.add(replacement_parameter)
return list(replacement_parameters)
[docs]class InputProxy(object):
"""Provide InputParameter-interfaces over inputs but renamed for workflow context."""
[docs] def __init__(self, input, prefixed_name):
self.input = input
self.prefixed_name = prefixed_name
@property
def name(self):
return self.prefixed_name
@property
def label(self):
return self.prefixed_name
[docs] def to_dict(self, *args, **kwds):
as_dict = self.input.to_dict(*args, **kwds)
as_dict["name"] = self.prefixed_name
return as_dict
[docs]def optional_param(optional):
bool_source = dict(name="optional", label="Optional", type="boolean", checked=optional)
optional_value = BooleanToolParameter(None, bool_source)
return optional_value
[docs]def format_param(trans, formats):
formats_val = "" if not formats else ",".join(formats)
source = dict(type="text", label="Format(s)", name="format", value=formats_val, optional=True, options=formats, help="Leave empty to auto-generate filtered list at runtime based on connections.")
source["options"] = [{"value": v, "label": v} for v in trans.app.datatypes_registry.datatypes_by_extension.keys()]
format_value = TextToolParameter(None, source)
return format_value
[docs]class InputModule(WorkflowModule):
default_optional = False
[docs] def get_runtime_state(self):
state = DefaultToolState()
state.inputs = dict(input=None)
return state
[docs] def execute(self, trans, progress, invocation_step, use_cached_job=False):
invocation = invocation_step.workflow_invocation
step = invocation_step.workflow_step
step_outputs = dict(output=step.state.inputs['input'])
# Web controller may set copy_inputs_to_history, API controller always sets
# inputs.
if invocation.copy_inputs_to_history:
for input_dataset_hda in list(step_outputs.values()):
content_type = input_dataset_hda.history_content_type
if content_type == "dataset":
new_hda = input_dataset_hda.copy()
invocation.history.add_dataset(new_hda)
step_outputs['input_ds_copy'] = new_hda
elif content_type == "dataset_collection":
new_hdca = input_dataset_hda.copy()
invocation.history.add_dataset_collection(new_hdca)
step_outputs['input_ds_copy'] = new_hdca
else:
raise Exception("Unknown history content encountered")
# If coming from UI - we haven't registered invocation inputs yet,
# so do that now so dependent steps can be recalculated. In the future
# everything should come in from the API and this can be eliminated.
if not invocation.has_input_for_step(step.id):
content = next(iter(step_outputs.values()))
if content:
invocation.add_input(content, step.id)
progress.set_outputs_for_input(invocation_step, step_outputs)
[docs] def recover_mapping(self, invocation_step, progress):
progress.set_outputs_for_input(invocation_step, already_persisted=True)
def _parse_state_into_dict(self):
inputs = self.state.inputs
rval = {}
if "optional" in inputs:
optional = bool(inputs["optional"])
else:
optional = self.default_optional
rval["optional"] = optional
if "format" in inputs:
formats = listify(inputs["format"])
else:
formats = None
if formats:
rval["format"] = formats
return rval
[docs] def step_state_to_tool_state(self, state):
state = safe_loads(state)
if "format" in state:
formats = state["format"]
if formats:
formats = ",".join(listify(formats))
state["format"] = formats
state = json.dumps(state)
return state
[docs] def save_to_step(self, step):
step.type = self.type
step.tool_inputs = self._parse_state_into_dict()
[docs]class InputDataModule(InputModule):
type = "data_input"
name = "Input dataset"
[docs] def get_all_outputs(self, data_only=False):
parameter_def = self._parse_state_into_dict()
format_def = parameter_def.get("format")
optional = parameter_def["optional"]
if format_def is None:
extensions = ['input']
else:
extensions = listify(format_def)
return [dict(name='output', extensions=extensions, optional=optional)]
[docs] def get_filter_set(self, connections=None):
filter_set = []
if connections:
for oc in connections:
for ic in oc.input_step.module.get_data_inputs():
if 'extensions' in ic and ic['extensions'] != 'input' and ic['name'] == oc.input_name:
filter_set += ic['extensions']
if not filter_set:
filter_set = ['data']
return ', '.join(filter_set)
[docs] def get_runtime_inputs(self, connections=None):
parameter_def = self._parse_state_into_dict()
optional = parameter_def["optional"]
formats = parameter_def.get("format")
if not formats:
formats = self.get_filter_set(connections)
else:
formats = ",".join(listify(formats))
data_src = dict(name="input", label=self.label, multiple=False, type="data", format=formats, optional=optional)
input_param = DataToolParameter(None, data_src, self.trans)
return dict(input=input_param)
[docs] def get_inputs(self):
parameter_def = self._parse_state_into_dict()
optional = parameter_def["optional"]
inputs = OrderedDict()
inputs["optional"] = optional_param(optional)
inputs["format"] = format_param(self.trans, parameter_def.get("format"))
return inputs
[docs]class InputDataCollectionModule(InputModule):
type = "data_collection_input"
name = "Input dataset collection"
default_collection_type = "list"
collection_type = default_collection_type
[docs] def get_inputs(self):
parameter_def = self._parse_state_into_dict()
collection_type = parameter_def["collection_type"]
optional = parameter_def["optional"]
collection_type_source = dict(name="collection_type", label="Collection type", type="text", value=collection_type)
collection_type_source["options"] = [
{"value": "list", "label": "List of Datasets"},
{"value": "paired", "label": "Dataset Pair"},
{"value": "list:paired", "label": "List of Dataset Pairs"},
]
input_collection_type = TextToolParameter(None, collection_type_source)
inputs = OrderedDict()
inputs["collection_type"] = input_collection_type
inputs["optional"] = optional_param(optional)
inputs["format"] = format_param(self.trans, parameter_def.get("format"))
return inputs
[docs] def get_runtime_inputs(self, **kwds):
parameter_def = self._parse_state_into_dict()
collection_type = parameter_def["collection_type"]
optional = parameter_def["optional"]
formats = parameter_def.get("format")
collection_param_source = dict(name="input", label=self.label, type="data_collection", collection_type=collection_type, optional=optional)
if formats:
collection_param_source["format"] = ",".join(listify(formats))
input_param = DataCollectionToolParameter(None, collection_param_source, self.trans)
return dict(input=input_param)
[docs] def get_all_outputs(self, data_only=False):
parameter_def = self._parse_state_into_dict()
format_def = parameter_def.get("format")
optional = parameter_def["optional"]
if format_def is None:
extensions = ['input']
else:
extensions = listify(format_def)
return [
dict(
name='output',
extensions=extensions,
collection=True,
collection_type=parameter_def.get('collection_type', self.default_collection_type),
optional=optional,
)
]
def _parse_state_into_dict(self):
state_as_dict = super(InputDataCollectionModule, self)._parse_state_into_dict()
inputs = self.state.inputs
if "collection_type" in inputs:
collection_type = inputs["collection_type"]
else:
collection_type = self.default_collection_type
state_as_dict["collection_type"] = collection_type
return state_as_dict
[docs]class InputParameterModule(WorkflowModule):
type = "parameter_input"
name = "Input parameter"
default_parameter_type = "text"
default_optional = False
default_default_value = ''
parameter_type = default_parameter_type
optional = default_optional
default_value = default_default_value
[docs] def get_inputs(self):
parameter_def = self._parse_state_into_dict()
parameter_type = parameter_def["parameter_type"]
optional = parameter_def["optional"]
select_source = dict(name="parameter_type", label="Parameter type", type="select", value=parameter_type)
select_source["options"] = [
{"value": "text", "label": "Text"},
{"value": "integer", "label": "Integer"},
{"value": "float", "label": "Float"},
{"value": "boolean", "label": "Boolean (True or False)"},
{"value": "color", "label": "Color"},
]
input_parameter_type = SelectToolParameter(None, select_source)
# encode following loop in description above instead
for i, option in enumerate(input_parameter_type.static_options):
option = list(option)
if option[1] == parameter_type:
# item 0 is option description, item 1 is value, item 2 is "selected"
option[2] = True
input_parameter_type.static_options[i] = tuple(option)
parameter_type_cond = Conditional()
parameter_type_cond.name = "parameter_definition"
parameter_type_cond.test_param = input_parameter_type
cases = []
for param_type in ["text", "integer", "float", "boolean", "color"]:
default_source = dict(name="default", label="Default Value", type=param_type)
if param_type == "text":
if parameter_type == "text":
default = parameter_def.get("default") or ""
else:
default = ""
default_source["value"] = default
input_default_value = TextToolParameter(None, default_source)
elif param_type == "integer":
if parameter_type == "integer":
default = parameter_def.get("default") or 0
else:
default = 0
default_source["value"] = default
input_default_value = IntegerToolParameter(None, default_source)
elif param_type == "float":
if parameter_type == "float":
default = parameter_def.get("default") or 0.0
else:
default = 0.0
default_source["value"] = default
input_default_value = FloatToolParameter(None, default_source)
elif param_type == "boolean":
if parameter_type == "boolean":
default = parameter_def.get("default") or False
else:
default = False
default_source["value"] = default
default_source["checked"] = default
input_default_value = BooleanToolParameter(None, default_source)
elif param_type == "color":
if parameter_type == 'color':
default = parameter_def.get('default') or '#000000'
else:
default = '#000000'
default_source["value"] = default
input_default_value = ColorToolParameter(None, default_source)
optional_value = optional_param(optional)
optional_cond = Conditional()
optional_cond.name = "optional"
optional_cond.test_param = optional_value
when_this_type = ConditionalWhen()
when_this_type.value = param_type
when_this_type.inputs = OrderedDict()
when_this_type.inputs["optional"] = optional_cond
specify_default_checked = "default" in parameter_def
specify_default_source = dict(name="specify_default", label="Specify a default value", type="boolean", checked=specify_default_checked)
specify_default = BooleanToolParameter(None, specify_default_source)
specify_default_cond = Conditional()
specify_default_cond.name = "specify_default"
specify_default_cond.test_param = specify_default
when_specify_default_true = ConditionalWhen()
when_specify_default_true.value = "true"
when_specify_default_true.inputs = OrderedDict()
when_specify_default_true.inputs["default"] = input_default_value
when_specify_default_false = ConditionalWhen()
when_specify_default_false.value = "false"
when_specify_default_false.inputs = OrderedDict()
specify_default_cond_cases = [when_specify_default_true, when_specify_default_false]
specify_default_cond.cases = specify_default_cond_cases
when_true = ConditionalWhen()
when_true.value = "true"
when_true.inputs = OrderedDict()
when_true.inputs["default"] = specify_default_cond
when_false = ConditionalWhen()
when_false.value = "false"
when_false.inputs = OrderedDict()
optional_cases = [when_true, when_false]
optional_cond.cases = optional_cases
if param_type == "text":
restrict_how_source = dict(name="how", label="Restrict Text Values?", type="select")
if parameter_def.get("restrictions") is not None:
restrict_how_value = "staticRestrictions"
elif parameter_def.get("restrictOnConnections") is True:
restrict_how_value = "onConnections"
elif parameter_def.get("suggestions") is not None:
restrict_how_value = "staticSuggestions"
else:
restrict_how_value = "none"
log.info("parameter_def [%s], how [%s]" % (parameter_def, restrict_how_value))
restrict_how_source["options"] = [
{"value": "none", "label": "Do not specify restrictions (default).", "selected": restrict_how_value == "none"},
{"value": "onConnections", "label": "Attempt restriction based on connections.", "selected": restrict_how_value == "onConnections"},
{"value": "staticRestrictions", "label": "Provide list of all possible values.", "selected": restrict_how_value == "staticRestrictions"},
{"value": "staticSuggestions", "label": "Provide list of suggested values.", "selected": restrict_how_value == "staticSuggestions"},
]
restrictions_cond = Conditional()
restrictions_how = SelectToolParameter(None, restrict_how_source)
restrictions_cond.name = "restrictions"
restrictions_cond.test_param = restrictions_how
when_restrict_none = ConditionalWhen()
when_restrict_none.value = "none"
when_restrict_none.inputs = OrderedDict()
when_restrict_connections = ConditionalWhen()
when_restrict_connections.value = "onConnections"
when_restrict_connections.inputs = OrderedDict()
when_restrict_static_restrictions = ConditionalWhen()
when_restrict_static_restrictions.value = "staticRestrictions"
when_restrict_static_restrictions.inputs = OrderedDict()
when_restrict_static_suggestions = ConditionalWhen()
when_restrict_static_suggestions.value = "staticSuggestions"
when_restrict_static_suggestions.inputs = OrderedDict()
# Repeats don't work - so use common separated list for now.
# Use both restrictions and suggestions as each other's default so value preserved.
restrictions_list = parameter_def.get("restrictions") or parameter_def.get("suggestions")
if restrictions_list is None:
restrictions_list = []
restriction_values = self._parameter_option_def_to_tool_form_str(restrictions_list)
restrictions_source = dict(name="restrictions", label="Restriction Values", value=restriction_values, help="Comman-separated list of potential all values")
restrictions = TextToolParameter(None, restrictions_source)
suggestions_source = dict(name="suggestions", label="Suggestion Values", value=restriction_values, help="Comman-separated list of some potential values")
suggestions = TextToolParameter(None, suggestions_source)
when_restrict_static_restrictions.inputs["restrictions"] = restrictions
when_restrict_static_suggestions.inputs["suggestions"] = suggestions
restrictions_cond_cases = [when_restrict_none, when_restrict_connections, when_restrict_static_restrictions, when_restrict_static_suggestions]
restrictions_cond.cases = restrictions_cond_cases
when_this_type.inputs["restrictions"] = restrictions_cond
cases.append(when_this_type)
parameter_type_cond.cases = cases
return OrderedDict([("parameter_definition", parameter_type_cond)])
[docs] def get_runtime_inputs(self, connections=None, **kwds):
parameter_def = self._parse_state_into_dict()
parameter_type = parameter_def["parameter_type"]
optional = parameter_def["optional"]
if parameter_type not in ["text", "boolean", "integer", "float", "color"]:
raise ValueError("Invalid parameter type for workflow parameters encountered.")
# Optional parameters for tool input source definition.
parameter_kwds = {}
is_text = parameter_type == "text"
restricted_inputs = False
# Really is just an attempt - tool module may not be available (small problem), get_options may really depend on other
# values we are not setting, so this isn't great. Be sure to just fallback to text in this case.
attemptRestrictOnConnections = is_text and parameter_def.get("restrictOnConnections") and connections
try:
if attemptRestrictOnConnections:
static_options = []
# Retrieve possible runtime options for 'select' type inputs
for connection in connections:
# Well this isn't a great assumption...
module = connection.input_step.module
tool_inputs = module.tool.inputs # may not be set, but we're catching the Exception below.
def callback(input, prefixed_name, context, **kwargs):
if prefixed_name == connection.input_name:
static_options.append(input.get_options(self.trans, {}))
visit_input_values(tool_inputs, module.state.inputs, callback)
options = None
if static_options and len(static_options) == 1:
# If we are connected to a single option, just use it as is so order is preserved cleanly and such.
options = [{"label": o[0], "value": o[1]} for o in static_options[0]]
elif static_options:
# Intersection based on values of multiple option connections.
intxn_vals = set.intersection(*({option[1] for option in options} for options in static_options))
intxn_opts = {option for options in static_options for option in options if option[1] in intxn_vals}
d = defaultdict(set) # Collapse labels with same values
for label, value, _ in intxn_opts:
d[value].add(label)
options = [{"label": ', '.join(label), "value": value, "selected": False} for value, label in d.items()]
if options is not None:
parameter_kwds["options"] = options
restricted_inputs = True
except Exception:
log.debug("Failed to generate options for text parameter, falling back to free text.", exc_info=True)
def _parameter_def_list_to_options(parameter_value):
options = []
for item in parameter_value:
option = {}
if isinstance(item, dict):
value = item["value"]
option["value"] = value
if "label" in item:
option["label"] = item["label"]
else:
option["label"] = value
else:
option["value"] = item
option["label"] = item
options.append(option)
return options
if is_text and not restricted_inputs and parameter_def.get("restrictions"):
restriction_values = parameter_def.get("restrictions")
parameter_kwds["options"] = _parameter_def_list_to_options(restriction_values)
restricted_inputs = True
client_parameter_type = parameter_type
if restricted_inputs:
client_parameter_type = "select"
parameter_class = parameter_types[client_parameter_type]
if optional:
default_value = parameter_def.get("default", self.default_default_value)
parameter_kwds["value"] = default_value
if parameter_type == 'boolean':
parameter_kwds['checked'] = default_value
if "value" not in parameter_kwds and parameter_type in ["integer", "float"]:
parameter_kwds["value"] = str(0)
if is_text and parameter_def.get("suggestions") is not None:
suggestion_values = parameter_def.get("suggestions")
parameter_kwds["options"] = _parameter_def_list_to_options(suggestion_values)
input_source = dict(name="input", label=self.label, type=client_parameter_type, optional=optional, **parameter_kwds)
input = parameter_class(None, input_source)
return dict(input=input)
[docs] def get_runtime_state(self):
state = DefaultToolState()
state.inputs = dict(input=None)
return state
[docs] def get_all_outputs(self, data_only=False):
if data_only:
return []
parameter_def = self._parse_state_into_dict()
return [dict(
name='output',
label=self.label,
type=parameter_def.get('parameter_type'),
optional=parameter_def['optional'],
parameter=True,
)]
[docs] def execute(self, trans, progress, invocation_step, use_cached_job=False):
step = invocation_step.workflow_step
input_value = step.state.inputs['input']
if input_value is None:
default_value = safe_loads(step.tool_inputs.get("default", "{}"))
# TODO: look at parameter type and infer if value should be a dictionary
# instead. Guessing only field parameter types in CWL branch would have
# default as dictionary like this.
if not isinstance(default_value, dict):
default_value = {"value": default_value}
input_value = default_value.get("value", NO_REPLACEMENT)
step_outputs = dict(output=input_value)
progress.set_outputs_for_input(invocation_step, step_outputs)
[docs] def step_state_to_tool_state(self, state):
state = safe_loads(state)
default_set, default_value = False, None
if "default" in state:
default_set = True
default_value = state["default"]
state["optional"] = True
restrictions = state.get("restrictions")
restrictOnConnections = state.get("restrictOnConnections")
suggestions = state.get("suggestions")
restrictions_how = "none"
if restrictions is not None:
restrictions_how = "staticRestrictions"
if suggestions is not None:
restrictions_how = "staticSuggestions"
elif restrictOnConnections:
restrictions_how = "onConnections"
state = {
"parameter_definition": {
"parameter_type": state["parameter_type"],
"optional": {
"optional": str(state.get("optional", False))
}
}
}
state["parameter_definition"]["restrictions"] = {}
state["parameter_definition"]["restrictions"]["how"] = restrictions_how
if restrictions_how == "staticRestrictions":
state["parameter_definition"]["restrictions"]["restrictions"] = self._parameter_option_def_to_tool_form_str(restrictions)
if restrictions_how == "staticSuggestions":
state["parameter_definition"]["restrictions"]["suggestions"] = self._parameter_option_def_to_tool_form_str(suggestions)
if default_set:
state["parameter_definition"]["optional"]["specify_default"] = {}
state["parameter_definition"]["optional"]["specify_default"]["specify_default"] = True
state["parameter_definition"]["optional"]["specify_default"]["default"] = default_value
state = json.dumps(state)
return state
def _parameter_option_def_to_tool_form_str(self, parameter_def):
return ",".join("%s:%s" % (o["value"], o["label"]) if isinstance(o, dict) else o for o in parameter_def)
def _parse_state_into_dict(self):
inputs = self.state.inputs
rval = {}
# 19.0X tool state...
if "parameter_type" in inputs:
rval.update({"parameter_type": inputs["parameter_type"], "optional": False})
# expanded tool state...
elif "parameter_definition" in inputs:
parameters_def = inputs["parameter_definition"]
if "optional" in parameters_def:
optional_state = parameters_def["optional"]
optional = bool(optional_state["optional"])
if "specify_default" in optional_state and bool(optional_state["specify_default"]["specify_default"]):
rval["default"] = optional_state["specify_default"]["default"]
else:
optional = False
restrictions_cond_values = parameters_def.get("restrictions")
if restrictions_cond_values:
def _string_to_parameter_def_option(str_value):
items = []
for option_part in str_value.split(","):
option_part = option_part.strip()
if ":" not in option_part:
items.append(option_part)
else:
value, label = option_part.split(":", 1)
items.append({"value": value, "label": label})
return items
# how better be in here.
how = restrictions_cond_values["how"]
if how == "none":
pass
elif how == "onConnections":
rval["restrictOnConnections"] = True
elif how == "staticRestrictions":
restriction_values = restrictions_cond_values["restrictions"]
rval.update({"restrictions": _string_to_parameter_def_option(restriction_values)})
elif how == "staticSuggestions":
suggestion_values = restrictions_cond_values["suggestions"]
rval.update({"suggestions": _string_to_parameter_def_option(suggestion_values)})
else:
log.warn("Unknown restriction conditional type encountered for workflow parameter.")
rval.update({"parameter_type": parameters_def["parameter_type"], "optional": optional})
else:
rval.update({"parameter_type": self.default_parameter_type, "optional": self.default_optional})
return rval
[docs] def save_to_step(self, step):
step.type = self.type
step.tool_inputs = self._parse_state_into_dict()
[docs]class PauseModule(WorkflowModule):
""" Initially this module will unconditionally pause a workflow - will aim
to allow conditional pausing later on.
"""
type = "pause"
name = "Pause for dataset review"
[docs] def get_all_inputs(self, data_only=False, connectable_only=False):
input = dict(
name="input",
label="Dataset for Review",
multiple=False,
extensions='input',
input_type="dataset",
)
return [input] if not data_only else []
[docs] def get_all_outputs(self, data_only=False):
return [dict(name="output", label="Reviewed Dataset", extensions=['input'])]
[docs] def execute(self, trans, progress, invocation_step, use_cached_job=False):
step = invocation_step.workflow_step
progress.mark_step_outputs_delayed(step, why="executing pause step")
[docs] def recover_mapping(self, invocation_step, progress):
if invocation_step:
step = invocation_step.workflow_step
action = invocation_step.action
if action:
connection = step.input_connections_by_name["input"][0]
replacement = progress.replacement_for_connection(connection)
progress.set_step_outputs(invocation_step, {'output': replacement})
return
elif action is False:
raise CancelWorkflowEvaluation()
delayed_why = "workflow paused at this step waiting for review"
raise DelayedWorkflowEvaluation(why=delayed_why)
[docs] def do_invocation_step_action(self, step, action):
""" Update or set the workflow invocation state action - generic
extension point meant to allows users to interact with interactive
workflow modules. The action object returned from this method will
be attached to the WorkflowInvocationStep and be available the next
time the workflow scheduler visits the workflow.
"""
return bool(action)
[docs]class ToolModule(WorkflowModule):
type = "tool"
name = "Tool"
[docs] def __init__(self, trans, tool_id, tool_version=None, exact_tools=True, tool_uuid=None, **kwds):
super(ToolModule, self).__init__(trans, content_id=tool_id, **kwds)
self.tool_id = tool_id
self.tool_version = tool_version
self.tool_uuid = tool_uuid
self.tool = trans.app.toolbox.get_tool(tool_id, tool_version=tool_version, exact=exact_tools, tool_uuid=tool_uuid)
if self.tool:
if tool_version and exact_tools and str(self.tool.version) != str(tool_version):
log.info("Exact tool specified during workflow module creation for [%s] but couldn't find correct version [%s]." % (tool_id, tool_version))
self.tool = None
self.post_job_actions = {}
self.runtime_post_job_actions = {}
self.workflow_outputs = []
self.version_changes = []
# ---- Creating modules from various representations ---------------------
[docs] @classmethod
def from_dict(Class, trans, d, **kwds):
tool_id = d.get('content_id') or d.get('tool_id')
tool_version = d.get('tool_version')
if tool_version:
tool_version = str(tool_version)
tool_uuid = d.get('tool_uuid', None)
if tool_id is None and tool_uuid is None:
tool_representation = d.get("tool_representation")
if tool_representation:
create_request = {
"representation": tool_representation,
}
if not trans.user_is_admin:
raise exceptions.AdminRequiredException("Only admin users can create tools dynamically.")
dynamic_tool = trans.app.dynamic_tool_manager.create_tool(
trans, create_request, allow_load=False
)
tool_uuid = dynamic_tool.uuid
if tool_id is None and tool_uuid is None:
raise exceptions.RequestParameterInvalidException("No content id could be located for for step [%s]" % d)
module = super(ToolModule, Class).from_dict(trans, d, tool_id=tool_id, tool_version=tool_version, tool_uuid=tool_uuid, **kwds)
module.post_job_actions = d.get('post_job_actions', {})
module.workflow_outputs = d.get('workflow_outputs', [])
if module.tool:
message = ""
if tool_id != module.tool_id:
message += "The tool (id '%s') specified in this step is not available. Using the tool with id %s instead." % (tool_id, module.tool_id)
if d.get('tool_version', 'Unspecified') != module.get_version():
message += "%s: using version '%s' instead of version '%s' specified in this workflow." % (tool_id, module.get_version(), d.get('tool_version', 'Unspecified'))
if message:
log.debug(message)
module.version_changes.append(message)
return module
[docs] @classmethod
def from_workflow_step(Class, trans, step, **kwds):
if step.tool_id is not None:
tool_id = trans.app.toolbox.get_tool_id(step.tool_id) or step.tool_id
else:
tool_id = None
tool_version = step.tool_version
tool_uuid = step.tool_uuid
module = super(ToolModule, Class).from_workflow_step(trans, step, tool_id=tool_id, tool_version=tool_version, tool_uuid=tool_uuid, **kwds)
module.workflow_outputs = step.workflow_outputs
module.post_job_actions = {}
for pja in step.post_job_actions:
module.post_job_actions[pja.action_type] = pja
if module.tool:
message = ""
if step.tool_id and step.tool_id != module.tool_id: # This means the exact version of the tool is not installed. We inform the user.
old_tool_shed = step.tool_id.split("/repos/")[0]
if old_tool_shed not in tool_id: # Only display the following warning if the tool comes from a different tool shed
old_tool_shed_url = get_tool_shed_url_from_tool_shed_registry(trans.app, old_tool_shed)
if not old_tool_shed_url: # a tool from a different tool_shed has been found, but the original tool shed has been deactivated
old_tool_shed_url = "http://" + old_tool_shed # let's just assume it's either http, or a http is forwarded to https.
old_url = old_tool_shed_url + "/view/%s/%s/" % (module.tool.repository_owner, module.tool.repository_name)
new_url = module.tool.sharable_url + '/%s/' % module.tool.changeset_revision
new_tool_shed_url = new_url.split("/view")[0]
message += "The tool \'%s\', version %s by the owner %s installed from <a href=\"%s\" target=\"_blank\">%s</a> is not available. " % (module.tool.name, tool_version, module.tool.repository_owner, old_url, old_tool_shed_url)
message += "A derivation of this tool installed from <a href=\"%s\" target=\"_blank\">%s</a> will be used instead. " % (new_url, new_tool_shed_url)
if step.tool_version and (step.tool_version != module.tool.version):
message += "<span title=\"tool id '%s'\">Using version '%s' instead of version '%s' specified in this workflow. " % (tool_id, module.tool.version, step.tool_version)
if message:
log.debug(message)
module.version_changes.append(message)
else:
log.warning("The tool '%s' is missing. Cannot build workflow module." % tool_id)
return module
# ---- Saving in various forms ------------------------------------------
[docs] def save_to_step(self, step):
super(ToolModule, self).save_to_step(step)
step.tool_id = self.tool_id
if self.tool:
step.tool_version = self.get_version()
else:
step.tool_version = self.tool_version
tool_uuid = getattr(self, "tool_uuid", None)
if tool_uuid:
step.dynamic_tool = self.trans.app.dynamic_tool_manager.get_tool_by_uuid(tool_uuid)
for k, v in self.post_job_actions.items():
pja = self.__to_pja(k, v, step)
self.trans.sa_session.add(pja)
# ---- General attributes ------------------------------------------------
[docs] def get_tooltip(self, static_path=''):
if self.tool and self.tool.help:
return self.tool.help.render(host_url=web.url_for('/'), static_path=static_path)
# ---- Configuration time -----------------------------------------------
[docs] def get_errors(self, include_tool_id=False, **kwargs):
if not self.tool:
if include_tool_id:
return "%s is not installed" % self.tool_id
else:
return "Tool is not installed"
[docs] def get_all_inputs(self, data_only=False, connectable_only=False):
if data_only and connectable_only:
raise Exception("Must specify at most one of data_only and connectable_only as True.")
inputs = []
if self.tool:
def callback(input, prefixed_name, prefixed_label, value=None, **kwargs):
visible = not hasattr(input, 'hidden') or not input.hidden
input_type = input.type
is_data = isinstance(input, DataToolParameter) or isinstance(input, DataCollectionToolParameter)
is_connectable = is_runtime_value(value) and runtime_to_json(value)["__class__"] == "ConnectedValue"
if data_only:
skip = not visible or not is_data
elif connectable_only:
skip = not visible or not (is_data or is_connectable)
elif isinstance(input, HiddenToolParameter):
skip = False
else:
skip = not visible
if not skip:
if isinstance(input, DataToolParameter):
inputs.append(dict(
name=prefixed_name,
label=prefixed_label,
multiple=input.multiple,
extensions=input.extensions,
optional=input.optional,
input_type="dataset", ))
elif isinstance(input, DataCollectionToolParameter):
inputs.append(dict(
name=prefixed_name,
label=prefixed_label,
multiple=input.multiple,
input_type="dataset_collection",
collection_types=input.collection_types,
optional=input.optional,
extensions=input.extensions,
))
else:
inputs.append(
dict(
name=prefixed_name,
label=prefixed_label,
multiple=False,
input_type="parameter",
optional=getattr(input, "optional", False),
type=input_type,
)
)
visit_input_values(self.tool.inputs, self.state.inputs, callback)
return inputs
[docs] def get_all_outputs(self, data_only=False):
data_outputs = []
if self.tool:
for name, tool_output in self.tool.outputs.items():
if filter_output(tool_output, self.state.inputs):
continue
extra_kwds = {}
if isinstance(tool_output, ToolExpressionOutput):
extra_kwds['parameter'] = True
if tool_output.collection:
extra_kwds["collection"] = True
collection_type = tool_output.structure.collection_type
if not collection_type and tool_output.structure.collection_type_from_rules:
rule_param = tool_output.structure.collection_type_from_rules
if rule_param in self.state.inputs:
rule_json_str = self.state.inputs[rule_param]
if rule_json_str: # initialized to None...
rules = rule_json_str
if rules:
rule_set = RuleSet(rules)
collection_type = rule_set.collection_type
extra_kwds["collection_type"] = collection_type
extra_kwds["collection_type_source"] = tool_output.structure.collection_type_source
formats = ['input'] # TODO: fix
elif tool_output.format_source is not None:
formats = ['input'] # default to special name "input" which remove restrictions on connections
else:
formats = [tool_output.format]
for change_elem in tool_output.change_format:
for when_elem in change_elem.findall('when'):
format = when_elem.get('format', None)
if format and format not in formats:
formats.append(format)
if tool_output.label:
try:
params = make_dict_copy(self.state.inputs)
params['on_string'] = 'input dataset(s)'
params['tool'] = self.tool
extra_kwds['label'] = fill_template(tool_output.label,
context=params,
python_template_version=self.tool.python_template_version)
except Exception:
pass
data_outputs.append(
dict(
name=name,
extensions=formats,
type=tool_output.output_type,
optional=False,
**extra_kwds
)
)
return data_outputs
[docs] def get_config_form(self, step=None):
if self.tool:
self.add_dummy_datasets(connections=step and step.input_connections)
incoming = {}
params_to_incoming(incoming, self.tool.inputs, self.state.inputs, self.trans.app)
return self.tool.to_json(self.trans, incoming, workflow_building_mode=True)
[docs] def check_and_update_state(self):
if self.tool:
return self.tool.check_and_update_param_values(self.state.inputs, self.trans, workflow_building_mode=True)
[docs] def add_dummy_datasets(self, connections=None, steps=None):
if self.tool:
if connections:
# Store connections by input name
input_connections_by_name = dict((conn.input_name, conn) for conn in connections)
else:
input_connections_by_name = {}
# Any input needs to have value RuntimeValue or obtain the value from connected steps
def callback(input, prefixed_name, context, **kwargs):
input_type = input.type
is_data = input_type in ['data', 'data_collection']
if is_data and connections is not None and steps is not None and self.trans.workflow_building_mode is workflow_building_modes.USE_HISTORY:
if prefixed_name in input_connections_by_name:
connection = input_connections_by_name[prefixed_name]
output_step = next(output_step for output_step in steps if connection.output_step_id == output_step.id)
if output_step.type.startswith('data'):
output_inputs = output_step.module.get_runtime_inputs(connections=connections)
output_value = output_inputs['input'].get_initial_value(self.trans, context)
if input_type == "data" and isinstance(output_value, self.trans.app.model.HistoryDatasetCollectionAssociation):
return output_value.to_hda_representative()
return output_value
return ConnectedValue()
else:
return input.get_initial_value(self.trans, context)
elif (is_data and connections is None) or prefixed_name in input_connections_by_name:
return ConnectedValue()
visit_input_values(self.tool.inputs, self.state.inputs, callback)
else:
raise ToolMissingException("Tool %s missing. Cannot add dummy datasets." % self.tool_id,
tool_id=self.tool_id)
# ---- Run time ---------------------------------------------------------
[docs] def recover_state(self, state, **kwds):
""" Recover state `dict` from simple dictionary describing configuration
state (potentially from persisted step state).
Sub-classes should supply a `default_state` method which contains the
initial state `dict` with key, value pairs for all available attributes.
"""
super(ToolModule, self).recover_state(state, **kwds)
if kwds.get("fill_defaults", False) and self.tool:
self.compute_runtime_state(self.trans, step=None, step_updates=None)
self.augment_tool_state_for_input_connections(**kwds)
self.tool.check_and_update_param_values(self.state.inputs, self.trans, workflow_building_mode=True)
[docs] def augment_tool_state_for_input_connections(self, **kwds):
"""Update tool state to accommodate specified input connections.
Top-level and conditional inputs will automatically get populated with connected
data outputs at runtime, but if there are not enough repeat instances in the tool
state - the runtime replacement code will never visit the input elements it needs
to in order to connect the data parameters to the tool state. This code then
populates the required repeat instances in the tool state in order for these
instances to be visited and inputs properly connected at runtime. I believe
this should be run before check_and_update_param_values in recover_state so non-data
parameters are properly populated with default values. The need to populate
defaults is why this is done here instead of at runtime - but this might also
be needed at runtime at some point (for workflows installed before their corresponding
tools?).
See the test case test_inputs_to_steps for an example of a workflow test
case that exercises this code.
"""
# Ensure any repeats defined only by input_connections are populated.
input_connections = kwds.get("input_connections", {})
expected_replacement_keys = input_connections.keys()
def augment(expected_replacement_key, inputs, inputs_state):
if "|" not in expected_replacement_key:
return
prefix, rest = expected_replacement_key.split("|", 1)
if "_" not in prefix:
return
repeat_name, index = prefix.rsplit("_", 1)
if not index.isdigit():
return
index = int(index)
repeat = self.tool.inputs[repeat_name]
if repeat.type != "repeat":
return
if repeat_name not in inputs_states:
inputs_states[repeat_name] = []
repeat_values = inputs_states[repeat_name]
repeat_instance_state = None
while index >= len(repeat_values):
repeat_instance_state = {"__index__": len(repeat_values)}
repeat_values.append(repeat_instance_state)
if repeat_instance_state:
# TODO: untest branch - no test case for nested repeats yet...
augment(rest, repeat.inputs, repeat_instance_state)
for expected_replacement_key in expected_replacement_keys:
inputs_states = self.state.inputs
inputs = self.tool.inputs
augment(expected_replacement_key, inputs, inputs_states)
[docs] def get_runtime_state(self):
state = DefaultToolState()
state.inputs = self.state.inputs
return state
[docs] def compute_runtime_state(self, trans, step=None, step_updates=None):
# Warning: This method destructively modifies existing step state.
if self.tool:
step_errors = {}
state = self.state
self.runtime_post_job_actions = {}
state, step_errors = super(ToolModule, self).compute_runtime_state(trans, step, step_updates)
if step_updates:
self.runtime_post_job_actions = step_updates.get(RUNTIME_POST_JOB_ACTIONS_KEY, {})
step_metadata_runtime_state = self.__step_meta_runtime_state()
if step_metadata_runtime_state:
state.inputs[RUNTIME_STEP_META_STATE_KEY] = step_metadata_runtime_state
return state, step_errors
else:
raise ToolMissingException("Tool %s missing. Cannot compute runtime state." % self.tool_id,
tool_id=self.tool_id)
[docs] def decode_runtime_state(self, runtime_state):
""" Take runtime state from persisted invocation and convert it
into a DefaultToolState object for use during workflow invocation.
"""
if self.tool:
state = super(ToolModule, self).decode_runtime_state(runtime_state)
if RUNTIME_STEP_META_STATE_KEY in runtime_state:
self.__restore_step_meta_runtime_state(json.loads(runtime_state[RUNTIME_STEP_META_STATE_KEY]))
return state
else:
raise ToolMissingException("Tool %s missing. Cannot recover runtime state." % self.tool_id,
tool_id=self.tool_id)
[docs] def execute(self, trans, progress, invocation_step, use_cached_job=False):
invocation = invocation_step.workflow_invocation
step = invocation_step.workflow_step
tool = trans.app.toolbox.get_tool(step.tool_id, tool_version=step.tool_version, tool_uuid=step.tool_uuid)
if not tool.is_workflow_compatible:
message = "Specified tool [%s] in workflow is not workflow-compatible." % tool.id
raise Exception(message)
tool_state = step.state
# Not strictly needed - but keep Tool state clean by stripping runtime
# metadata parameters from it.
if RUNTIME_STEP_META_STATE_KEY in tool_state.inputs:
del tool_state.inputs[RUNTIME_STEP_META_STATE_KEY]
all_inputs = self.get_all_inputs()
all_inputs_by_name = {}
for input_dict in all_inputs:
all_inputs_by_name[input_dict["name"]] = input_dict
collection_info = self.compute_collection_info(progress, step, all_inputs)
param_combinations = []
if collection_info:
iteration_elements_iter = collection_info.slice_collections()
else:
iteration_elements_iter = [None]
resource_parameters = invocation.resource_parameters
for iteration_elements in iteration_elements_iter:
execution_state = tool_state.copy()
# TODO: Move next step into copy()
execution_state.inputs = make_dict_copy(execution_state.inputs)
expected_replacement_keys = set(step.input_connections_by_name.keys())
found_replacement_keys = set()
# Connect up
def callback(input, prefixed_name, **kwargs):
input_dict = all_inputs_by_name[prefixed_name]
replacement = NO_REPLACEMENT
dataset_instance = None
if iteration_elements and prefixed_name in iteration_elements:
dataset_instance = getattr(iteration_elements[prefixed_name], 'dataset_instance', None)
if isinstance(input, DataToolParameter) and dataset_instance:
# Pull out dataset instance (=HDA) from element and set a temporary element_identifier attribute
# See https://github.com/galaxyproject/galaxy/pull/1693 for context.
replacement = dataset_instance
if hasattr(iteration_elements[prefixed_name], u'element_identifier') and iteration_elements[prefixed_name].element_identifier:
replacement.element_identifier = iteration_elements[prefixed_name].element_identifier
else:
# If collection - just use element model object.
replacement = iteration_elements[prefixed_name]
else:
replacement = progress.replacement_for_input(step, input_dict)
if replacement is not NO_REPLACEMENT:
if not isinstance(input, BaseDataToolParameter):
# Probably a parameter that can be replaced
dataset = dataset_instance or replacement
if getattr(dataset, 'extension', None) == 'expression.json':
with open(dataset.file_name, 'r') as f:
replacement = json.load(f)
found_replacement_keys.add(prefixed_name)
return replacement
try:
# Replace DummyDatasets with historydatasetassociations
visit_input_values(tool.inputs, execution_state.inputs, callback, no_replacement_value=NO_REPLACEMENT, replace_optional_connections=True)
except KeyError as k:
message_template = "Error due to input mapping of '%s' in '%s'. A common cause of this is conditional outputs that cannot be determined until runtime, please review your workflow."
message = message_template % (tool.name, unicodify(k))
raise exceptions.MessageException(message)
unmatched_input_connections = expected_replacement_keys - found_replacement_keys
if unmatched_input_connections:
log.warning("Failed to use input connections for inputs [%s]" % unmatched_input_connections)
param_combinations.append(execution_state.inputs)
complete = False
completed_jobs = {}
for i, param in enumerate(param_combinations):
if use_cached_job:
completed_jobs[i] = tool.job_search.by_tool_input(
trans=trans,
tool_id=tool.id,
tool_version=tool.version,
param=param,
param_dump=tool.params_to_strings(param, trans.app, nested=True),
job_state=None,
)
else:
completed_jobs[i] = None
try:
mapping_params = MappingParameters(tool_state.inputs, param_combinations)
max_num_jobs = progress.maximum_jobs_to_schedule_or_none
validate_outputs = False
for pja in step.post_job_actions:
if pja.action_type == "ValidateOutputsAction":
validate_outputs = True
execution_tracker = execute(
trans=self.trans,
tool=tool,
mapping_params=mapping_params,
history=invocation.history,
collection_info=collection_info,
workflow_invocation_uuid=invocation.uuid.hex,
invocation_step=invocation_step,
max_num_jobs=max_num_jobs,
validate_outputs=validate_outputs,
job_callback=lambda job: self._handle_post_job_actions(step, job, invocation.replacement_dict),
completed_jobs=completed_jobs,
workflow_resource_parameters=resource_parameters
)
complete = True
except PartialJobExecution as pje:
execution_tracker = pje.execution_tracker
except ToolInputsNotReadyException:
delayed_why = "tool [%s] inputs are not ready, this special tool requires inputs to be ready" % tool.id
raise DelayedWorkflowEvaluation(why=delayed_why)
progress.record_executed_job_count(len(execution_tracker.successful_jobs))
if collection_info:
step_outputs = dict(execution_tracker.implicit_collections)
else:
step_outputs = dict(execution_tracker.output_datasets)
step_outputs.update(execution_tracker.output_collections)
progress.set_step_outputs(invocation_step, step_outputs, already_persisted=not invocation_step.is_new)
if collection_info:
step_inputs = mapping_params.param_template
step_inputs.update(collection_info.collections)
self._handle_mapped_over_post_job_actions(step, step_inputs, step_outputs, invocation.replacement_dict)
if execution_tracker.execution_errors:
message = "Failed to create one or more job(s) for workflow step."
raise Exception(message)
return complete
def _effective_post_job_actions(self, step):
effective_post_job_actions = step.post_job_actions[:]
for key, value in self.runtime_post_job_actions.items():
effective_post_job_actions.append(self.__to_pja(key, value, None))
return effective_post_job_actions
def _handle_mapped_over_post_job_actions(self, step, step_inputs, step_outputs, replacement_dict):
effective_post_job_actions = self._effective_post_job_actions(step)
for pja in effective_post_job_actions:
if pja.action_type in ActionBox.mapped_over_output_actions:
ActionBox.execute_on_mapped_over(self.trans, self.trans.sa_session, pja, step_inputs, step_outputs, replacement_dict)
def _handle_post_job_actions(self, step, job, replacement_dict):
# Create new PJA associations with the created job, to be run on completion.
# PJA Parameter Replacement (only applies to immediate actions-- rename specifically, for now)
# Pass along replacement dict with the execution of the PJA so we don't have to modify the object.
# Combine workflow and runtime post job actions into the effective post
# job actions for this execution.
flush_required = False
effective_post_job_actions = self._effective_post_job_actions(step)
for pja in effective_post_job_actions:
if pja.action_type in ActionBox.immediate_actions or isinstance(self.tool, DatabaseOperationTool):
ActionBox.execute(self.trans.app, self.trans.sa_session, pja, job, replacement_dict)
else:
pjaa = model.PostJobActionAssociation(pja, job_id=job.id)
self.trans.sa_session.add(pjaa)
flush_required = True
if flush_required:
self.trans.sa_session.flush()
def __restore_step_meta_runtime_state(self, step_runtime_state):
if RUNTIME_POST_JOB_ACTIONS_KEY in step_runtime_state:
self.runtime_post_job_actions = step_runtime_state[RUNTIME_POST_JOB_ACTIONS_KEY]
def __step_meta_runtime_state(self):
""" Build a dictionary a of meta-step runtime state (state about how
the workflow step - not the tool state) to be serialized with the Tool
state.
"""
return {RUNTIME_POST_JOB_ACTIONS_KEY: self.runtime_post_job_actions}
def __to_pja(self, key, value, step):
if 'output_name' in value:
output_name = value['output_name']
else:
output_name = None
if 'action_arguments' in value:
action_arguments = value['action_arguments']
else:
action_arguments = None
return PostJobAction(value['action_type'], step, output_name, action_arguments)
[docs] def get_replacement_parameters(self, step):
"""Return a list of replacement parameters."""
replacement_parameters = set()
for pja in step.post_job_actions:
for argument in pja.action_arguments.values():
for match in re.findall(r'\$\{(.+?)\}', unicodify(argument)):
replacement_parameters.add(match)
return list(replacement_parameters)
[docs]class WorkflowModuleFactory(object):
[docs] def from_dict(self, trans, d, **kwargs):
"""
Return module initialized from the data in dictionary `d`.
"""
type = d['type']
assert type in self.module_types, "Unexpected workflow step type [%s] not found in [%s]" % (type, self.module_types.keys())
return self.module_types[type].from_dict(trans, d, **kwargs)
[docs] def from_workflow_step(self, trans, step, **kwargs):
"""
Return module initializd from the WorkflowStep object `step`.
"""
type = step.type
return self.module_types[type].from_workflow_step(trans, step, **kwargs)
module_types = dict(
data_input=InputDataModule,
data_collection_input=InputDataCollectionModule,
parameter_input=InputParameterModule,
pause=PauseModule,
tool=ToolModule,
subworkflow=SubWorkflowModule,
)
module_factory = WorkflowModuleFactory(module_types)
[docs]def load_module_sections(trans):
""" Get abstract description of the workflow modules this Galaxy instance
is configured with.
"""
module_sections = {}
module_sections['inputs'] = {
"name": "inputs",
"title": "Inputs",
"modules": [
{
"name": "data_input",
"title": "Input Dataset",
"description": "Input dataset"
},
{
"name": "data_collection_input",
"title": "Input Dataset Collection",
"description": "Input dataset collection"
},
{
"name": "parameter_input",
"title": "Parameter Input",
"description": "Simple inputs used for workflow logic"
},
],
}
if trans.app.config.enable_beta_workflow_modules:
module_sections['experimental'] = {
"name": "experimental",
"title": "Experimental",
"modules": [
{
"name": "pause",
"title": "Pause Workflow for Dataset Review",
"description": "Pause for Review"
}
],
}
return module_sections
[docs]class WorkflowModuleInjector(object):
""" Injects workflow step objects from the ORM with appropriate module and
module generated/influenced state. """
[docs] def __init__(self, trans, allow_tool_state_corrections=False):
self.trans = trans
self.allow_tool_state_corrections = allow_tool_state_corrections
[docs] def inject(self, step, step_args=None, steps=None, **kwargs):
""" Pre-condition: `step` is an ORM object coming from the database, if
supplied `step_args` is the representation of the inputs for that step
supplied via web form.
Post-condition: The supplied `step` has new non-persistent attributes
useful during workflow invocation. These include 'upgrade_messages',
'state', 'input_connections_by_name', and 'module'.
If step_args is provided from a web form this is applied to generate
'state' else it is just obtained from the database.
"""
step_errors = None
step.upgrade_messages = {}
# Make connection information available on each step by input name.
step.setup_input_connections_by_name()
# Populate module.
module = step.module = module_factory.from_workflow_step(self.trans, step, **kwargs)
# Any connected input needs to have value DummyDataset (these
# are not persisted so we need to do it every time)
module.add_dummy_datasets(connections=step.input_connections, steps=steps)
# Populate subworkflow components
if step.type == "subworkflow":
subworkflow_param_map = step_args or {}
unjsonified_subworkflow_param_map = {}
for key, value in subworkflow_param_map.items():
unjsonified_subworkflow_param_map[int(key)] = value
subworkflow = step.subworkflow
populate_module_and_state(self.trans, subworkflow, param_map=unjsonified_subworkflow_param_map)
state, step_errors = module.compute_runtime_state(self.trans, step, step_args)
step.state = state
# Fix any missing parameters
step.upgrade_messages = module.check_and_update_state()
return step_errors
[docs]def populate_module_and_state(trans, workflow, param_map, allow_tool_state_corrections=False, module_injector=None):
""" Used by API but not web controller, walks through a workflow's steps
and populates transient module and state attributes on each.
"""
if module_injector is None:
module_injector = WorkflowModuleInjector(trans, allow_tool_state_corrections)
for step in workflow.steps:
step_args = param_map.get(step.id, {})
step_errors = module_injector.inject(step, step_args=step_args)
if step_errors:
raise exceptions.MessageException(step_errors, err_data={step.order_index: step_errors})
if step.upgrade_messages:
if allow_tool_state_corrections:
log.debug('Workflow step "%i" had upgrade messages: %s', step.id, step.upgrade_messages)
else:
raise exceptions.MessageException(step.upgrade_messages, err_data={step.order_index: step.upgrade_messages})