SatisfactoryPlusCalculator/factorygame/data/vis.py

712 lines
32 KiB
Python
Executable file

#!/usr/bin/env python3
import re
import sys
from concurrent.futures import Future
from typing import Callable
import click
import sqlalchemy
from NodeGraphQt import BaseNode, NodeBaseWidget
from NodeGraphQt import NodeGraph, Port
from NodeGraphQt.constants import PortTypeEnum, NodePropWidgetEnum, ViewerEnum
from NodeGraphQt.widgets.node_widgets import _NodeGroupBox, NodeLineEdit, NodeCheckBox
from PySide2 import QtGui
from PySide2.QtCore import Qt, QObject, QThread
from PySide2.QtWidgets import QSlider, QLineEdit, QCheckBox, QGraphicsItem, QInputDialog, QDialog, QLabel, QSizePolicy
from Qt import QtWidgets
from sqlalchemy import create_engine
from sqlalchemy.orm import Session
from factorygame.data.common import chose_resource, resource_needs_update, chose_recipe
from factorygame.data.sfp import SatisfactoryPlus, DEFAULT_IGNORE_FACTORIES
from .models import Recipe, Resource, ResourceFlow, Base
WORLD_INPUT_PORT_NAME = "World Input"
WORLD_OUTPUT_PORT_NAME = "World Output"
WORLD_PORT_COLOR = (0, 139, 41)
CREATE_MACHINE_PORT_NAME = "Create Machine"
INPUT_COLOR = (249, 169, 0)
OUTPUT_COLOR = (204, 44, 36)
OTHER_COLOR = (0, 83, 135)
def generate_fgbg_stylesheet(bg_alpha: float = 1.0) -> str:
dark_bg = QtGui.QColor(*ViewerEnum.BACKGROUND_COLOR.value).darker(120)
dark_bg.setAlphaF(bg_alpha)
bg_color = dark_bg.getRgb()
text_color = tuple(map(str, map(lambda i, j: i - j, (255, 255, 255), bg_color)))
return (
"* {"
" background-color: rgba(" + ",".join(map(str, bg_color)) + ");"
" color: rgb(" + ",".join(text_color) + ");"
"}"
)
def in_amount_name(label: str) -> str:
return f"In {label} amount"
def out_amount_name(label: str) -> str:
return f"Out {label} amount"
def port_amount_name(port: Port) -> str:
if port.type_() == PortTypeEnum.IN:
return in_amount_name(port.name())
elif port.type_() == PortTypeEnum.OUT:
return out_amount_name(port.name())
else:
raise TypeError(f"Invalid port type {port.type_()}")
def add_resource_text(
node: BaseNode, name: str, text: str, border_color: tuple, readonly: bool = False
) -> NodeLineEdit:
node.add_text_input(name=name, label=name, text=text)
widget: NodeLineEdit = node.get_widget(name)
line_edit_widget: QLineEdit = widget.get_custom_widget()
if readonly:
line_edit_widget.setReadOnly(True)
group: _NodeGroupBox = widget.widget()
group.setMaximumWidth(220)
group.adjustSize()
if border_color:
stylesheet = line_edit_widget.styleSheet()
match = Machine.STYLESHEET_BORDER_COLOR_REGEX.match(stylesheet)
stylesheet = (
stylesheet[: match.start(1)] + f"rgb({','.join(map(str, border_color))})" + stylesheet[match.end(1) :]
)
line_edit_widget.setStyleSheet(stylesheet)
line_edit_widget.update()
return widget
def parse_resource_amount(text: str) -> float:
return float(text.strip().rstrip("min").rstrip().rstrip("/").rstrip())
def resource_amount_to_text(amount: float):
return f"{amount:.2f} / min"
class AsyncResourceFetcher(QThread):
def __init__(self, parent, resource_label: str, engine: sqlalchemy.Engine, debug: bool):
super().__init__(parent=parent)
self.resource_label = resource_label
self.engine = engine
self.debug = debug
def run(self):
with Session(self.engine) as session, SatisfactoryPlus(
ignore_factories=DEFAULT_IGNORE_FACTORIES, debug=self.debug
) as data_provider:
resource = session.scalars(Resource.by_label(self.resource_label)).one()
resource = data_provider.update_resource_recipes(session=session, resource=resource)
if self.debug:
print("AsyncResourceFetcher updated resource in separate thread", resource)
session.commit()
class AsyncResourceFinder(QThread):
def __init__(self, parent, resource_label: str, engine: sqlalchemy.Engine, prompt: Callable, debug: bool):
super().__init__(parent=parent)
self.resource_label = resource_label
self.engine = engine
self.debug = debug
self.prompt = prompt
self.result = Future()
def run(self):
try:
with (
Session(self.engine) as session,
SatisfactoryPlus(ignore_factories=DEFAULT_IGNORE_FACTORIES, debug=self.debug) as data_provider,
):
search_result_future = data_provider.search_for_resource(
session=session, search=self.resource_label, prompt=self.prompt
)
search_result = search_result_future.result(timeout=60)
if search_result is None:
if self.debug:
print("AsyncResourceFinder search completed, but no result")
self.result.set_result(None)
return
resource, exists_in_db = search_result
if not exists_in_db or resource_needs_update(resource):
resource = data_provider.update_resource_recipes(session=session, resource=resource)
if self.debug:
print("AsyncResourceFinder updated resource", resource)
self.result.set_result(resource)
session.commit()
except:
self.result.set_exception(sys.exception())
class NodeSlider(NodeBaseWidget):
MIN_VALUE = 1
MAX_VALUE = 250
DEFAULT_VALUE = 100
def __init__(self, name: str, label: str = "", parent: QGraphicsItem = None, readonly: bool = False):
super(NodeSlider, self).__init__(parent)
self.set_name(name)
self.pure_label = label or name
slider = QSlider(Qt.Horizontal)
slider.setEnabled(not readonly)
slider.setRange(self.MIN_VALUE, self.MAX_VALUE)
slider.setValue(self.DEFAULT_VALUE)
slider.setSingleStep(1)
slider.setTickInterval(10)
slider.setTickPosition(QSlider.TicksBelow)
slider.valueChanged.connect(self.on_value_changed)
slider.valueChanged.connect(self._update_label)
self.set_custom_widget(slider)
self._update_label()
def get_custom_widget(self) -> QSlider:
widget = super().get_custom_widget()
assert isinstance(widget, QSlider), f"Unexpected widget, not a QSlider: {widget}"
return widget
def get_value(self) -> int:
return self.get_custom_widget().value()
def set_value(self, value: int):
self.get_custom_widget().setValue(max(self.MIN_VALUE, min(self.MAX_VALUE, value)))
def _update_label(self):
self.set_label(f"{self.pure_label} ({self.get_value()}%)")
class GlobalInput(BaseNode):
__identifier__ = "factorygame"
NODE_NAME = "Global Input"
def __init__(self):
super().__init__()
self.model.width = 240
self.set_port_deletion_allowed(True)
self.add_special_ports()
self.output_resources: dict[str, float] = {}
def add_special_ports(self):
self.add_output(WORLD_OUTPUT_PORT_NAME, multi_output=False, color=WORLD_PORT_COLOR)
self.add_output(CREATE_MACHINE_PORT_NAME, multi_output=False, color=OTHER_COLOR)
def reorder_ports(self):
self.delete_output(WORLD_OUTPUT_PORT_NAME)
self.delete_output(CREATE_MACHINE_PORT_NAME)
self.add_special_ports()
def update_x_pos(self, graph: NodeGraph):
min_x_pos = min(map(lambda node: node.x_pos(), filter(lambda node: node != self, graph.all_nodes())))
self.set_x_pos(min_x_pos - self.view.width - 150)
def create_global_output(self, graph: NodeGraph, resource_label: str, initial_resource_amount: float) -> Port:
# FIXME: support multiple resource outputs or add splitters
new_output_port = self.add_output(name=resource_label, multi_output=False, color=OUTPUT_COLOR)
widget = add_resource_text(
node=self,
name=out_amount_name(resource_label),
text=resource_amount_to_text(initial_resource_amount),
border_color=OUTPUT_COLOR,
)
self.output_resources[resource_label] = initial_resource_amount
widget.value_changed.connect(lambda: self.update_resource_output(resource_label))
self.reorder_ports()
self.update_x_pos(graph=graph)
return new_output_port
def update_resource_output(self, resource_label: str):
assert resource_label in self.output_resources
widget: NodeLineEdit = self.get_widget(out_amount_name(resource_label))
new_amount = parse_resource_amount(widget.get_value())
if self.output_resources[resource_label] != new_amount:
self.output_resources[resource_label] = new_amount
widget.set_value(resource_amount_to_text(self.output_resources[resource_label]))
resource_port = self.get_output(resource_label)
for connected_port in resource_port.connected_ports():
node = connected_port.node()
assert isinstance(node, Machine), f"Connected node must be a machine: {node}"
node.update_input(resource_label, new_amount)
class GlobalOutput(BaseNode):
__identifier__ = "factorygame"
NODE_NAME = "Global Output"
def __init__(self):
super().__init__()
self.model.width = 240
self.set_port_deletion_allowed(True)
self.add_special_ports()
self.input_resources: dict[str, float] = {}
def add_special_ports(self):
self.add_input(WORLD_INPUT_PORT_NAME, multi_input=False, color=WORLD_PORT_COLOR)
self.add_input(CREATE_MACHINE_PORT_NAME, multi_input=False, color=OTHER_COLOR)
def reorder_ports(self):
self.delete_input(WORLD_INPUT_PORT_NAME)
self.delete_input(CREATE_MACHINE_PORT_NAME)
self.add_special_ports()
def update_x_pos(self, graph: NodeGraph):
other_nodes = filter(lambda node: node != self, graph.all_nodes())
max_x = max(map(lambda node: node.x_pos() + node.view.width, other_nodes))
self.set_x_pos(max_x + 150)
def create_global_input(self, graph: NodeGraph, resource_label: str, initial_resource_amount: float) -> Port:
# FIXME: support multiple resource inputs or add mergers
new_input_port = self.add_input(name=resource_label, multi_input=False, color=INPUT_COLOR)
widget = add_resource_text(
node=self,
name=in_amount_name(resource_label),
text=resource_amount_to_text(initial_resource_amount),
border_color=INPUT_COLOR,
)
line_edit_widget: QLineEdit = widget.get_custom_widget()
line_edit_widget.setReadOnly(True)
self.input_resources[resource_label] = initial_resource_amount
self.reorder_ports()
return new_input_port
def update_input(self, resource_label: str, value: float):
assert resource_label in self.input_resources
widget: NodeLineEdit = self.get_widget(in_amount_name(resource_label))
if self.input_resources[resource_label] != value:
self.input_resources[resource_label] = value
widget.set_value(resource_amount_to_text(self.input_resources[resource_label]))
class Machine(BaseNode):
__identifier__ = "factorygame"
NODE_NAME = "FactoryGame Machine"
MAXIMUM_PERFORMANCE_PROP = "machine max perf"
ACTUAL_PERFORMANCE_PROP = "machine actual perf"
AUTOMATIC_PERFORMANCE_PROP = "machine automatic"
STYLESHEET_BORDER_COLOR_REGEX = re.compile(
r"QLineEdit\s*{[^{}]*\s*border:[^;]*(rgb\([^)]+\))", re.MULTILINE | re.DOTALL
)
def __init__(self):
super().__init__()
self.model.width = 240
self.input_resources: dict[str, float] = {}
self.possible_input_resources: dict[str, float] = {}
self.output_resources: dict[str, float] = {}
self.add_checkbox(Machine.AUTOMATIC_PERFORMANCE_PROP, text="Automatic Mode", state=True)
widget: NodeCheckBox = self.get_widget(Machine.AUTOMATIC_PERFORMANCE_PROP)
widget.value_changed.connect(self.recalculate_factor)
checkbox_widget: QCheckBox = widget.get_custom_widget()
checkbox_widget.setStyleSheet(
checkbox_widget.styleSheet() + "\nQCheckBox {\n" f"background-color: transparent;\n" "}"
)
self.add_text_input(
name=Machine.ACTUAL_PERFORMANCE_PROP,
label="Overall Production",
text="100",
)
widget: NodeLineEdit = self.get_widget(Machine.ACTUAL_PERFORMANCE_PROP)
line_edit_widget: QLineEdit = widget.get_custom_widget()
line_edit_widget.setReadOnly(True)
def max_performance_changed(self):
self.set_property(Machine.AUTOMATIC_PERFORMANCE_PROP, False)
self.recalculate_factor()
def recalculate_factor(self):
max_factor: float = self.get_property(Machine.MAXIMUM_PERFORMANCE_PROP) / 100.0
if max_factor < 1.0 and self.get_property(Machine.AUTOMATIC_PERFORMANCE_PROP):
per_machine_factor = 1.0
else:
per_machine_factor = max_factor
all_machines_factor = None
for resource_label, wanted_resource in self.input_resources.items():
if len(self.get_input(resource_label).connected_ports()) != 0:
new_factor = self.possible_input_resources[resource_label] / wanted_resource / per_machine_factor
if all_machines_factor is None:
all_machines_factor = new_factor
elif new_factor < all_machines_factor:
all_machines_factor = new_factor
if all_machines_factor is None:
all_machines_factor = per_machine_factor
new_perf = int(all_machines_factor * 100.0)
if int(self.get_property(Machine.ACTUAL_PERFORMANCE_PROP)) != new_perf:
self.get_widget(name=Machine.ACTUAL_PERFORMANCE_PROP).set_value(str(new_perf))
self.actual_performance_changed(name=Machine.ACTUAL_PERFORMANCE_PROP, factor=all_machines_factor)
if self.get_property(Machine.AUTOMATIC_PERFORMANCE_PROP):
self.set_property(name=Machine.MAXIMUM_PERFORMANCE_PROP, value=100, push_undo=False)
def update_input(self, resource_label: str, value: float):
self.possible_input_resources[resource_label] = value
self.recalculate_factor()
def actual_performance_changed(self, name: str, factor: float):
if name == Machine.ACTUAL_PERFORMANCE_PROP:
for ingredient_label, amount in self.input_resources.items():
resource_text_widget = self.get_widget(in_amount_name(ingredient_label))
assert (
resource_text_widget is not None
), f"No ingredient resource text widget found for {ingredient_label}"
resource_text_widget.set_value(resource_amount_to_text(amount * factor))
for result_label, amount in self.output_resources.items():
resource_text_widget = self.get_widget(out_amount_name(result_label))
assert resource_text_widget is not None, f"No result resource text widget found for {result_label}"
new_output_value = amount * factor
resource_text_widget.set_value(resource_amount_to_text(new_output_value))
for port in self.get_output(result_label).connected_ports():
node = port.node()
node.update_input(
resource_label=result_label,
value=new_output_value,
)
def assign_recipe(self, recipe: Recipe):
for port_idx in range(len(self._inputs)):
self.delete_input(port_idx)
for port_idx in range(len(self._outputs)):
self.delete_output(port_idx)
self.set_property("name", recipe.join_factories(), push_undo=False)
for ingredient in recipe.ingredients:
resource_label = ingredient.resource.label
if resource_label in self.input_resources:
self.input_resources[resource_label] += ingredient.amount_per_minute()
self.get_widget(in_amount_name(resource_label)).set_value(
resource_amount_to_text(self.input_resources[resource_label])
)
else:
port = self.add_input(resource_label, multi_input=False, color=INPUT_COLOR)
port.add_accept_port_type(resource_label, PortTypeEnum.OUT.value, "factorygame.Machine")
port.add_accept_port_type(resource_label, PortTypeEnum.OUT.value, "factorygame.GlobalInput")
port.add_accept_port_type(CREATE_MACHINE_PORT_NAME, PortTypeEnum.OUT.value, "factorygame.GlobalInput")
port.add_accept_port_type(WORLD_OUTPUT_PORT_NAME, PortTypeEnum.OUT.value, "factorygame.GlobalInput")
self._add_readonly_resource_text(
in_amount_name(resource_label),
ingredient,
self.input_resources,
resource_label,
border_color=INPUT_COLOR,
)
for result in recipe.results:
resource_label = result.resource.label
if resource_label in self.output_resources:
self.output_resources[resource_label] += result.amount_per_minute()
self.get_widget(out_amount_name(resource_label)).set_value(
resource_amount_to_text(self.output_resources[resource_label])
)
else:
port = self.add_output(resource_label, multi_output=False, color=OUTPUT_COLOR)
port.add_accept_port_type(resource_label, PortTypeEnum.IN.value, "factorygame.Machine")
port.add_accept_port_type(resource_label, PortTypeEnum.IN.value, "factorygame.GlobalOutput")
port.add_accept_port_type(CREATE_MACHINE_PORT_NAME, PortTypeEnum.IN.value, "factorygame.GlobalOutput")
port.add_accept_port_type(WORLD_INPUT_PORT_NAME, PortTypeEnum.IN.value, "factorygame.GlobalOutput")
self._add_readonly_resource_text(
out_amount_name(resource_label),
result,
self.output_resources,
resource_label,
border_color=OUTPUT_COLOR,
)
self.possible_input_resources.update(self.input_resources)
slider = NodeSlider(name=Machine.MAXIMUM_PERFORMANCE_PROP, label="Overclocking Performance", parent=self.view)
self.add_custom_widget(widget=slider, widget_type=NodePropWidgetEnum.SLIDER.value)
slider.value_changed.connect(self.max_performance_changed)
def _add_readonly_resource_text(
self,
name: str,
flow: ResourceFlow,
resource_amounts: dict[str, float],
resource_label: str,
border_color: tuple,
) -> NodeLineEdit:
resource_amounts[resource_label] = flow.amount_per_minute()
text = resource_amount_to_text(resource_amounts[resource_label])
return add_resource_text(node=self, name=name, text=text, border_color=border_color, readonly=True)
def get_resource_output(self, resource_label: str) -> float:
return self.output_resources[resource_label] * (int(self.get_property(Machine.ACTUAL_PERFORMANCE_PROP)) / 100.0)
class GraphController(QObject):
def __init__(self, debug: bool, parent=None):
super().__init__(parent=parent)
self.debug = debug
self.engine = create_engine("sqlite:///file.db", echo=debug)
Base.metadata.create_all(bind=self.engine)
self.graph = NodeGraph(parent=self)
self.graph.widget.resize(1280, 720)
self.graph.register_node(Machine)
self.graph.register_node(GlobalInput)
self.graph.register_node(GlobalOutput)
self.global_input: GlobalInput = self.graph.create_node("factorygame.GlobalInput", push_undo=False)
self.global_output: GlobalOutput = self.graph.create_node("factorygame.GlobalOutput", push_undo=False)
self.graph.port_connected.connect(self.on_port_connected)
self.prompt_dialog = QInputDialog(parent=self.graph.widget)
self.prompt_dialog.setStyleSheet(generate_fgbg_stylesheet())
self.prompt_dialog.setModal(True)
self._dialog_future = Future()
self.prompt_dialog.rejected.connect(lambda: self._dialog_future.set_result(None))
self.prompt_dialog.accepted.connect(lambda: self._dialog_future.set_result(self.prompt_dialog.textValue()))
self.loading_dialog = QDialog(parent=self.graph.widget, f=(Qt.Dialog | Qt.ToolTip))
self.loading_dialog.setStyleSheet(generate_fgbg_stylesheet(0.5))
self.loading_dialog.setModal(True)
self.loading_dialog.setSizePolicy(QSizePolicy.Expanding, QSizePolicy.Expanding)
label = QLabel("Loading…", self.loading_dialog)
label.setAlignment(Qt.AlignCenter)
def add_machine_from_search(self, search: str):
recipe_selected_future = Future()
def resource_found_db(resource: Resource | None):
if resource is None:
return
def chose_recipe_async():
with Session(self.engine) as session:
chose_recipe(session=session, resource=resource, prompt=self.dialog_prompt).add_done_callback(
lambda fut: recipe_selected_future.set_result(fut.result())
)
if resource_needs_update(resource):
fetch_future = self.fetch_recipes_async(resource_label=resource.label)
fetch_future.add_done_callback(lambda fut: chose_recipe_async)
else:
chose_recipe_async()
def resource_selected_or_search_cb(resource_future: Future[Resource | None]):
resource = resource_future.result()
if resource is None:
search_future = self.search_resource_async(resource_label=search)
search_future.add_done_callback(lambda fut: resource_found_db(fut.result()))
else:
resource_found_db(resource)
def recipe_selected_cb(recipe_future: Future[Recipe | None]):
recipe = recipe_future.result()
if recipe is not None:
recipe_machine: Machine = self.graph.create_node("factorygame.Machine", push_undo=False)
recipe_machine.assign_recipe(recipe)
recipe_machine.update()
self.graph.auto_layout_nodes([self.global_input, recipe_machine, self.global_output])
self.global_input.set_y_pos(recipe_machine.y_pos())
self.global_output.set_y_pos(recipe_machine.y_pos())
self.global_input.update_x_pos(graph=self.graph)
self.global_output.update_x_pos(graph=self.graph)
self.graph.center_on([self.global_input, recipe_machine, self.global_output])
recipe_selected_future.add_done_callback(recipe_selected_cb)
with Session(self.engine) as session:
resource_future = chose_resource(session=session, resource_label=search, prompt=self.dialog_prompt)
resource_future.add_done_callback(resource_selected_or_search_cb)
def show(self):
self.graph.widget.show()
def on_port_connected(self, input_port: Port, output_port: Port):
if self.debug:
print(f"Port {output_port} connected to {input_port}")
output_node = output_port.node()
if output_node == self.global_input:
resource_label = input_port.name()
input_node = input_port.node()
if output_port.name() == CREATE_MACHINE_PORT_NAME:
output_port.clear_connections(push_undo=False, emit_signal=False)
def recipe_selected_cb(recipe_future: Future[Recipe | None]):
recipe = recipe_future.result()
if recipe is not None:
recipe_machine: Machine = self.graph.create_node("factorygame.Machine", push_undo=True)
recipe_machine.assign_recipe(recipe)
recipe_machine.update()
recipe_machine.set_x_pos(input_node.x_pos() - recipe_machine.view.width - 100)
recipe_machine.get_output(resource_label).connect_to(input_port)
self.global_input.update_x_pos(graph=self.graph)
if isinstance(input_node, Machine):
input_node.update_input(resource_label, recipe_machine.get_resource_output(resource_label))
with Session(self.engine) as session:
resource = session.scalars(Resource.by_label(resource_label)).one_or_none()
def chose_recipe_async():
with Session(self.engine) as session:
chose_recipe(
session=session,
resource=resource,
prompt=self.dialog_prompt,
).add_done_callback(recipe_selected_cb)
if resource_needs_update(resource):
fetch_future = self.fetch_recipes_async(resource_label)
fetch_future.add_done_callback(lambda fut: chose_recipe_async())
else:
chose_recipe_async()
elif output_port.name() == WORLD_OUTPUT_PORT_NAME:
output_port.clear_connections(push_undo=False, emit_signal=False)
for idx, port in enumerate(self.global_input.output_ports()):
assert port.name() != resource_label, f"Duplicate output port for {resource_label}"
# if port.name() == resource_label:
# port.connect_to(input_port, push_undo=True, emit_signal=False)
# return
if isinstance(input_node, Machine):
resource_amount = parse_resource_amount(
str(input_node.get_property(in_amount_name(resource_label)))
)
new_output_port = self.global_input.create_global_output(
graph=self.graph,
resource_label=resource_label,
initial_resource_amount=resource_amount,
)
new_output_port.connect_to(input_port, push_undo=True, emit_signal=False)
input_node.update_input(resource_label, resource_amount)
elif isinstance(output_node, Machine):
input_node = input_port.node()
resource_label = output_port.name()
if input_node == self.global_output:
if input_port.name() == CREATE_MACHINE_PORT_NAME:
input_port.clear_connections(push_undo=False, emit_signal=False)
def recipe_selected_cb(recipe_future: Future[Recipe | None]):
recipe = recipe_future.result()
if recipe is not None:
recipe_machine: Machine = self.graph.create_node("factorygame.Machine", push_undo=True)
recipe_machine.assign_recipe(recipe)
recipe_machine.update()
recipe_machine.set_x_pos(output_node.x_pos() + output_node.view.width + 100)
output_port.connect_to(recipe_machine.get_input(resource_label))
self.global_output.update_x_pos(graph=self.graph)
with Session(self.engine) as session:
resource = session.scalars(Resource.by_label(resource_label)).one_or_none()
def chose_recipe_async():
chose_recipe(
session=session, resource=resource, prompt=self.dialog_prompt, ingredient=True
).add_done_callback(recipe_selected_cb)
if resource_needs_update(resource):
fetch_future = self.fetch_recipes_async(resource_label=resource_label)
fetch_future.add_done_callback(lambda fut: chose_recipe_async())
else:
chose_recipe_async()
elif input_port.name() == WORLD_INPUT_PORT_NAME:
input_port.clear_connections(push_undo=False, emit_signal=False)
for idx, port in enumerate(self.global_output.output_ports()):
assert port.name() != resource_label, f"Duplicate output port for {resource_label}"
# if port.name() == resource_label:
# port.connect_to(input_port, push_undo=True, emit_signal=False)
# return
resource_amount = output_node.get_resource_output(resource_label)
new_input_port = self.global_output.create_global_input(
graph=self.graph,
resource_label=resource_label,
initial_resource_amount=resource_amount,
)
output_port.connect_to(new_input_port, push_undo=True, emit_signal=False)
elif isinstance(input_node, Machine):
resource_amount = output_node.get_resource_output(resource_label)
input_node.update_input(
resource_label,
resource_amount,
)
def fetch_recipes_async(self, resource_label):
if self.debug:
print("Fetching recipes for resource", resource_label)
fetcher_thread = AsyncResourceFetcher(
parent=self.graph,
resource_label=resource_label,
engine=self.engine,
debug=self.debug,
)
fetch_future = Future()
self.loading_dialog.show()
fetch_future.add_done_callback(lambda fut: self.loading_dialog.hide())
fetcher_thread.finished.connect(lambda: fetch_future.set_result(None))
fetcher_thread.start()
return fetch_future
def search_resource_async(self, resource_label) -> Future[Resource]:
if self.debug:
print("Searching resource", resource_label)
loading_future = Future()
def show_prompt(*args, **kwargs):
loading_future.set_result(None)
return self.dialog_prompt(*args, **kwargs)
fetcher_thread = AsyncResourceFinder(
parent=self.graph,
resource_label=resource_label,
engine=self.engine,
prompt=show_prompt,
debug=self.debug,
)
self.loading_dialog.show()
loading_future.add_done_callback(lambda fut: self.loading_dialog.hide())
fetcher_thread.start()
return fetcher_thread.result
def dialog_prompt(self, options: dict[int, str], text: str, default: int) -> Future[int | None]:
assert self.prompt_dialog.isHidden(), "Prompt dialog already visible"
if self.debug:
print("Displaying QInputDialog with options:", ", ".join(options.values()))
self.prompt_dialog.setLabelText(text)
if default in options:
self.prompt_dialog.setTextValue(options[default])
reversed_options: dict[str, int] = {value: key for key, value in options.items()}
self.prompt_dialog.setComboBoxItems(reversed_options.keys())
ret = Future()
self._dialog_future = Future()
def map_result(fut: Future):
result = fut.result()
if result is None:
ret.set_result(None)
else:
ret.set_result(reversed_options[result])
self._dialog_future.add_done_callback(map_result)
self.prompt_dialog.show()
return ret
@click.command
@click.option("--debug", is_flag=True)
@click.argument("search")
def main(debug: bool, search: str):
app = QtWidgets.QApplication([])
graph_controller = GraphController(debug=debug)
graph_controller.show()
graph_controller.add_machine_from_search(search=search)
app.exec_()
if __name__ == "__main__":
main()