faff to make __main__ not throw a warning

xrandroll/__init__.py

@@ -1 +1 @@
-from .__main__ import main
+from .main import main

xrandroll/__main__.py

@@ -1,420 +1,2 @@
-import os
-import shlex
-import subprocess
-import sys
-from copy import deepcopy
-
-from PySide2.QtCore import QFile, QObject
-from PySide2.QtUiTools import QUiLoader
-from PySide2.QtWidgets import QApplication, QGraphicsScene, QLabel
-
-from .monitor_item import MonitorItem
-
-
-def gen_xrandr_from_data(data):
-    """Takes monitor data and generates a xrandr command line."""
-    cli = ["xrandr"]
-    for name, mon in data.items():
-        cli.append(f"--output {name}")
-        if not mon["enabled"]:
-            cli.append("--off")
-        else:
-            cli.append(f'--pos {int(mon["pos_x"])}x{int(mon["pos_y"])}')
-            cli.append(f'--mode {mon["current_mode"]}')
-            mod_x, mod_y = [int(n) for n in mon["current_mode"].split("x")]
-            if mon["orientation"] in (1, 3):
-                mod_x, mod_y = mod_y, mod_x
-            cli.append(f'--scale {mon["res_x"]/mod_x}x{mon["res_y"]/mod_y}')
-            cli.append(
-                f"--rotate {['normal', 'left', 'inverted', 'right'][mon['orientation']]}"
-            )
-            if mon["primary"]:
-                cli.append("--primary")
-
-    return " ".join(cli)
-
-
-def parse_monitor(line):
-    parts = line.split()
-    name = parts[0]
-    primary = "primary" in parts
-    if "+" in line:  # Is enabled
-        enabled = True
-        res_x, res_y = [p for p in parts if "x" in p][0].split("+")[0].split("x")
-        pos_x, pos_y = [p for p in parts if "x" in p][0].split("+")[1:]
-        w_in_mm, h_in_mm = [p.split("mm")[0] for p in parts if p.endswith("mm")]
-    else:
-        enabled = False
-        res_x = res_y = pos_x = pos_y = w_in_mm = h_in_mm = 0
-
-    left_side = line.split(" (normal left inverted ")[0]
-    orientation = 0
-    if "left" in left_side:
-        orientation = 1
-    elif "inverted" in left_side:
-        orientation = 2
-    elif "right" in left_side:
-        orientation = 3
-
-    return (
-        name,
-        primary,
-        int(res_x),
-        int(res_y),
-        int(w_in_mm),
-        int(h_in_mm),
-        int(pos_x),
-        int(pos_y),
-        enabled,
-        orientation,
-    )
-
-
-def is_replica_of(a, b):
-    """Return True if monitor a is a replica of b.
-
-    Replica means same resolution and position.
-    """
-    return (
-        a["pos_x"] == b["pos_x"]
-        and a["pos_y"] == b["pos_y"]
-        and a["res_x"] == b["res_x"]
-        and a["res_y"] == b["res_y"]
-    )
-
-
-class Window(QObject):
-    def __init__(self, ui):
-        super().__init__()
-        self.ui = ui
-        ui.show()
-        self.ui.setWindowTitle("Display Configuration")
-        self.ui.screenCombo.currentTextChanged.connect(self.monitor_selected)
-        self.ui.replicaOf.currentTextChanged.connect(self.replica_changed)
-        self.ui.orientationCombo.currentIndexChanged.connect(self.orientation_changed)
-        self.xrandr_info = {}
-        self.get_xrandr_info()
-        self.orig_xrandr_info = deepcopy(self.xrandr_info)
-        self.fill_ui()
-        self.ui.horizontalScale.valueChanged.connect(self.scale_changed)
-        self.ui.verticalScale.valueChanged.connect(self.scale_changed)
-        self.ui.modes.currentTextChanged.connect(self.mode_changed)
-        self.ui.applyButton.clicked.connect(self.do_apply)
-        self.ui.okButton.clicked.connect(self.do_ok)
-        self.ui.resetButton.clicked.connect(self.do_reset)
-        self.ui.cancelButton.clicked.connect(self.ui.reject)
-        self.ui.scaleModeCombo.currentTextChanged.connect(self.scale_mode_changed)
-        self.ui.primary.stateChanged.connect(self.primary_changed)
-        self.ui.enabled.stateChanged.connect(self.enabled_changed)
-
-        self.pos_label = QLabel(self.ui.sceneView)
-        self.pos_label.move(5, 5)
-
-    def enabled_changed(self):
-        mon = self.ui.screenCombo.currentText()
-        enabled = self.ui.enabled.isChecked()
-        print(f"Setting {mon} enabled status to {enabled}")
-        monitor = self.xrandr_info[mon]
-        monitor["enabled"] = enabled
-        monitor["item"].update_visuals(monitor)
-
-    def primary_changed(self):
-        mon = self.ui.screenCombo.currentText()
-        primary = self.ui.primary.isChecked()
-
-        # Update visuals on all monitos
-        for name, monitor in self.xrandr_info.items():
-            if name == mon:
-                monitor["primary"] = primary
-            else:
-                if primary:  # There can only be one primary
-                    monitor["primary"] = False
-            monitor["item"].update_visuals(monitor)
-
-    def scale_mode_changed(self):
-        mon = self.ui.screenCombo.currentText()
-        scale_mode = self.ui.scaleModeCombo.currentText()
-        print(f"Set {mon} scale mode to {scale_mode}")
-        if scale_mode == "Manual":
-            self.ui.horizontalScale.setEnabled(True)
-            self.ui.verticalScale.setEnabled(True)
-            try:
-                self.ui.horizontalScale.valueChanged.disconnect(
-                    self.ui.verticalScale.setValue
-                )
-            except RuntimeError:  # Not connected
-                pass
-        elif scale_mode == "Disabled (1x1)":
-            self.ui.verticalScale.setEnabled(False)
-            self.ui.horizontalScale.setEnabled(False)
-            self.ui.horizontalScale.setValue(1000)
-            self.ui.verticalScale.setValue(1000)
-            try:
-                self.ui.horizontalScale.valueChanged.disconnect(
-                    self.ui.verticalScale.setValue
-                )
-            except RuntimeError:  # Not connected
-                pass
-        elif scale_mode == "Automatic: physical dimensions":
-            # Calculate scale factors so that the logical pixels will be the same
-            # size as in the primary window
-            if self.ui.primary.isChecked():
-                print("Has no effect on primary display.")
-                return
-
-            # Find the primary monitor
-            primary = [k for k in self.xrandr_info if self.xrandr_info[k]["primary"]]
-            if not primary:
-                print("Oops, no primary!")
-                return
-            primary = self.xrandr_info[primary[0]]
-            monitor = self.xrandr_info[mon]
-
-            prim_density_x = primary["res_x"] / primary["w_in_mm"]
-            prim_density_y = primary["res_y"] / primary["h_in_mm"]
-
-            dens_x = monitor["res_x"] / monitor["w_in_mm"]
-            dens_y = monitor["res_y"] / monitor["h_in_mm"]
-
-            try:
-                self.ui.horizontalScale.valueChanged.disconnect(
-                    self.ui.verticalScale.setValue
-                )
-            except RuntimeError:  # Not connected
-                pass
-            self.ui.horizontalScale.setEnabled(False)
-            self.ui.verticalScale.setEnabled(False)
-            self.ui.horizontalScale.setValue(prim_density_x / dens_x * 1000)
-            self.ui.verticalScale.setValue(prim_density_y / dens_y * 1000)
-
-        elif scale_mode == "Manual, same in both dimensions":
-            self.ui.horizontalScale.setEnabled(True)
-            self.ui.verticalScale.setEnabled(False)
-            self.ui.horizontalScale.valueChanged.connect(self.ui.verticalScale.setValue)
-            self.ui.verticalScale.setValue(self.ui.horizontalScale.value())
-
-    def replica_changed(self):
-        mon = self.ui.screenCombo.currentText()
-        replicate = self.ui.replicaOf.currentText()
-        print(f"Making {mon} a replica of {replicate}")
-        if replicate in ("None", "", None):
-            print("TODO: make things non-replicas")
-            return
-        mon = self.xrandr_info[mon]
-        replicate = self.xrandr_info[replicate]
-
-        # Making a replica implies:
-        # Set the same position
-        mon["pos_x"] = replicate["pos_x"]
-        mon["pos_y"] = replicate["pos_y"]
-
-        # Set the same mode if possible
-        if replicate["current_mode"] in mon["modes"]:
-            mon["current_mode"] = replicate["current_mode"]
-        else:
-            # Keep the current mode, and change scaling so it
-            # has the same effective size as the desired mode
-            mod_x, mod_y = [int(x) for x in mon["current_mode"].split("x")]
-            target_x, target_y = [replicate[x] for x in ["res_x", "res_y"]]
-            scale_x = 1000 * target_x / mod_x
-            scale_y = 1000 * target_y / mod_y
-            breakpoint()
-            print(target_x, target_y, mod_x, mod_y)
-            print(scale_x, scale_y)
-            self.ui.horizontalScale.setValue(scale_x)
-            self.ui.verticalScale.setValue(scale_y)
-
-        mon["item"].update_visuals(mon)
-
-    def do_reset(self):
-        for n in self.xrandr_info:
-            self.xrandr_info[n].update(self.orig_xrandr_info[n])
-        self.fill_ui()
-
-    def do_ok(self):
-        self.do_apply()
-        self.ui.accept()
-
-    def do_apply(self):
-        cli = gen_xrandr_from_data(self.xrandr_info)
-        print(cli)
-        subprocess.check_call(shlex.split(cli))
-
-    def fill_ui(self):
-        """Load data from xrandr and setup the whole thing."""
-        self.scene = QGraphicsScene(self)
-        self.ui.sceneView.setScene(self.scene)
-        self.ui.screenCombo.clear()
-
-        for name, monitor in self.xrandr_info.items():
-            self.ui.screenCombo.addItem(name)
-            mon_item = MonitorItem(data=monitor, window=self, name=name,)
-            # mon_item.setPos(monitor["pos_x"], monitor["pos_y"])
-            self.scene.addItem(mon_item)
-            monitor["item"] = mon_item
-        self.adjust_view()
-        self.scale_changed()  # Trigger scale labels update
-
-    def orientation_changed(self):
-        mon = self.ui.screenCombo.currentText()
-        orientation = self.ui.orientationCombo.currentIndex()
-        self.xrandr_info[mon]["orientation"] = orientation
-        self.mode_changed()
-
-    def mode_changed(self):
-        mon = self.ui.screenCombo.currentText()
-        mode = self.ui.modes.currentText()
-        if not mode:
-            return
-        print(f"Changing {mon} to {mode}")
-        self.xrandr_info[mon]["current_mode"] = mode
-        mode_x, mode_y = mode.split("x")
-        # use resolution via scaling
-        if self.xrandr_info[mon]["orientation"] in (0, 2):
-            self.xrandr_info[mon]["res_x"] = int(
-                int(mode_x) * self.ui.horizontalScale.value() / 1000
-            )
-            self.xrandr_info[mon]["res_y"] = int(
-                int(mode_y) * self.ui.verticalScale.value() / 1000
-            )
-        else:
-            self.xrandr_info[mon]["res_x"] = int(
-                int(mode_y) * self.ui.horizontalScale.value() / 1000
-            )
-            self.xrandr_info[mon]["res_y"] = int(
-                int(mode_x) * self.ui.verticalScale.value() / 1000
-            )
-        self.xrandr_info[mon]["item"].update_visuals(self.xrandr_info[mon])
-
-    def show_pos(self, x, y):
-        self.pos_label.setText(f"{x},{y}")
-        self.pos_label.resize(self.pos_label.sizeHint())
-
-    def monitor_moved(self):
-        "Update xrandr_info with new monitor positions"
-        for _, mon in self.xrandr_info.items():
-            item = mon["item"]
-            mon["pos_x"] = item.x()
-            mon["pos_y"] = item.y()
-        self.update_replica_of_data()
-        for _, mon in self.xrandr_info.items():
-            mon["item"].update_visuals(mon)
-        self.adjust_view()
-
-    def adjust_view(self):
-        self.ui.sceneView.resetTransform()
-        self.ui.sceneView.ensureVisible(self.scene.sceneRect(), 100, 100)
-        scale_factor = 0.8 * min(
-            self.ui.sceneView.width() / self.scene.sceneRect().width(),
-            self.ui.sceneView.height() / self.scene.sceneRect().height(),
-        )
-        self.ui.sceneView.scale(scale_factor, scale_factor)
-
-    def get_xrandr_info(self):
-        data = subprocess.check_output(["xrandr"]).decode("utf-8").splitlines()
-        name = None
-        for line in data:
-            if line and line[0] not in "S \t":  # Output line
-                (
-                    name,
-                    primary,
-                    res_x,
-                    res_y,
-                    w_in_mm,
-                    h_in_mm,
-                    pos_x,
-                    pos_y,
-                    enabled,
-                    orientation,
-                ) = parse_monitor(line)
-                self.xrandr_info[name] = dict(
-                    primary=primary,
-                    res_x=res_x,
-                    res_y=res_y,
-                    w_in_mm=w_in_mm,
-                    h_in_mm=h_in_mm,
-                    pos_x=pos_x,
-                    pos_y=pos_y,
-                    modes=[],
-                    current_mode=None,
-                    enabled=enabled,
-                    replica_of=[],
-                    orientation=orientation,
-                )
-            elif line[0] == " ":  # A mode
-                mode_name = line.strip().split()[0]
-                self.xrandr_info[name]["modes"].append(mode_name)
-                if "*" in line:
-                    print(f"Current mode for {name}: {mode_name}")
-                    self.xrandr_info[name]["current_mode"] = mode_name
-        self.update_replica_of_data()
-
-    def update_replica_of_data(self):
-        for a in self.xrandr_info:
-            self.xrandr_info[a]["replica_of"] = []
-            for b in self.xrandr_info:
-                if a != b and is_replica_of(self.xrandr_info[a], self.xrandr_info[b]):
-                    self.xrandr_info[a]["replica_of"].append(b)
-
-    def monitor_selected(self, name):
-        if not name:
-            return
-        # needed so we don't flip through all modes as they are added
-        self.ui.modes.blockSignals(True)
-        # Show modes
-        self.ui.modes.clear()
-        for mode in self.xrandr_info[name]["modes"]:
-            self.ui.modes.addItem(mode)
-        if (
-            self.xrandr_info[name]["current_mode"] is None
-        ):  # Happens with turned off monitors
-            self.xrandr_info[name]["enabled"] = False
-            h_scale = v_scale = 1
-        else:
-            self.ui.modes.setCurrentText(self.xrandr_info[name]["current_mode"])
-            mod_x, mod_y = [
-                int(x) for x in self.xrandr_info[name]["current_mode"].split("x")
-            ]
-            if self.xrandr_info[name]["orientation"] in (0, 2):
-                h_scale = self.xrandr_info[name]["res_x"] / mod_x
-                v_scale = self.xrandr_info[name]["res_y"] / mod_y
-            else:
-                h_scale = self.xrandr_info[name]["res_y"] / mod_x
-                v_scale = self.xrandr_info[name]["res_x"] / mod_y
-        self.ui.horizontalScale.setValue(h_scale * 1000)
-        self.ui.verticalScale.setValue(v_scale * 1000)
-        self.ui.primary.setChecked(self.xrandr_info[name]["primary"])
-        self.ui.enabled.setChecked(self.xrandr_info[name]["enabled"])
-        self.ui.orientationCombo.setCurrentIndex(self.xrandr_info[name]["orientation"])
-
-        self.ui.replicaOf.clear()
-        self.ui.replicaOf.addItem("None")
-        for mon in self.xrandr_info:
-            if mon != name:
-                self.ui.replicaOf.addItem(mon)
-                if mon in self.xrandr_info[name]["replica_of"]:
-                    self.ui.replicaOf.setCurrentText(mon)
-        self.ui.modes.blockSignals(False)
-
-    def scale_changed(self):
-        self.ui.horizontalScaleLabel.setText(
-            f"{int(self.ui.horizontalScale.value()/10)}%"
-        )
-        self.ui.verticalScaleLabel.setText(f"{int(self.ui.verticalScale.value()/10)}%")
-        self.mode_changed()  # Not really, but it's the same thing
-
-
-def main():
-    app = QApplication(sys.argv)
-
-    ui_file = QFile(os.path.join(os.path.dirname(__file__), "main.ui"))
-    ui_file.open(QFile.ReadOnly)
-
-    loader = QUiLoader()
-    window = Window(loader.load(ui_file))
-
-    sys.exit(app.exec_())
-
-
-if __name__ == "__main__":
-    main()
+from .main import main
+main()

xrandroll/main.py

@@ -0,0 +1,420 @@
+import os
+import shlex
+import subprocess
+import sys
+from copy import deepcopy
+
+from PySide2.QtCore import QFile, QObject
+from PySide2.QtUiTools import QUiLoader
+from PySide2.QtWidgets import QApplication, QGraphicsScene, QLabel
+
+from .monitor_item import MonitorItem
+
+
+def gen_xrandr_from_data(data):
+    """Takes monitor data and generates a xrandr command line."""
+    cli = ["xrandr"]
+    for name, mon in data.items():
+        cli.append(f"--output {name}")
+        if not mon["enabled"]:
+            cli.append("--off")
+        else:
+            cli.append(f'--pos {int(mon["pos_x"])}x{int(mon["pos_y"])}')
+            cli.append(f'--mode {mon["current_mode"]}')
+            mod_x, mod_y = [int(n) for n in mon["current_mode"].split("x")]
+            if mon["orientation"] in (1, 3):
+                mod_x, mod_y = mod_y, mod_x
+            cli.append(f'--scale {mon["res_x"]/mod_x}x{mon["res_y"]/mod_y}')
+            cli.append(
+                f"--rotate {['normal', 'left', 'inverted', 'right'][mon['orientation']]}"
+            )
+            if mon["primary"]:
+                cli.append("--primary")
+
+    return " ".join(cli)
+
+
+def parse_monitor(line):
+    parts = line.split()
+    name = parts[0]
+    primary = "primary" in parts
+    if "+" in line:  # Is enabled
+        enabled = True
+        res_x, res_y = [p for p in parts if "x" in p][0].split("+")[0].split("x")
+        pos_x, pos_y = [p for p in parts if "x" in p][0].split("+")[1:]
+        w_in_mm, h_in_mm = [p.split("mm")[0] for p in parts if p.endswith("mm")]
+    else:
+        enabled = False
+        res_x = res_y = pos_x = pos_y = w_in_mm = h_in_mm = 0
+
+    left_side = line.split(" (normal left inverted ")[0]
+    orientation = 0
+    if "left" in left_side:
+        orientation = 1
+    elif "inverted" in left_side:
+        orientation = 2
+    elif "right" in left_side:
+        orientation = 3
+
+    return (
+        name,
+        primary,
+        int(res_x),
+        int(res_y),
+        int(w_in_mm),
+        int(h_in_mm),
+        int(pos_x),
+        int(pos_y),
+        enabled,
+        orientation,
+    )
+
+
+def is_replica_of(a, b):
+    """Return True if monitor a is a replica of b.
+
+    Replica means same resolution and position.
+    """
+    return (
+        a["pos_x"] == b["pos_x"]
+        and a["pos_y"] == b["pos_y"]
+        and a["res_x"] == b["res_x"]
+        and a["res_y"] == b["res_y"]
+    )
+
+
+class Window(QObject):
+    def __init__(self, ui):
+        super().__init__()
+        self.ui = ui
+        ui.show()
+        self.ui.setWindowTitle("Display Configuration")
+        self.ui.screenCombo.currentTextChanged.connect(self.monitor_selected)
+        self.ui.replicaOf.currentTextChanged.connect(self.replica_changed)
+        self.ui.orientationCombo.currentIndexChanged.connect(self.orientation_changed)
+        self.xrandr_info = {}
+        self.get_xrandr_info()
+        self.orig_xrandr_info = deepcopy(self.xrandr_info)
+        self.fill_ui()
+        self.ui.horizontalScale.valueChanged.connect(self.scale_changed)
+        self.ui.verticalScale.valueChanged.connect(self.scale_changed)
+        self.ui.modes.currentTextChanged.connect(self.mode_changed)
+        self.ui.applyButton.clicked.connect(self.do_apply)
+        self.ui.okButton.clicked.connect(self.do_ok)
+        self.ui.resetButton.clicked.connect(self.do_reset)
+        self.ui.cancelButton.clicked.connect(self.ui.reject)
+        self.ui.scaleModeCombo.currentTextChanged.connect(self.scale_mode_changed)
+        self.ui.primary.stateChanged.connect(self.primary_changed)
+        self.ui.enabled.stateChanged.connect(self.enabled_changed)
+
+        self.pos_label = QLabel(self.ui.sceneView)
+        self.pos_label.move(5, 5)
+
+    def enabled_changed(self):
+        mon = self.ui.screenCombo.currentText()
+        enabled = self.ui.enabled.isChecked()
+        print(f"Setting {mon} enabled status to {enabled}")
+        monitor = self.xrandr_info[mon]
+        monitor["enabled"] = enabled
+        monitor["item"].update_visuals(monitor)
+
+    def primary_changed(self):
+        mon = self.ui.screenCombo.currentText()
+        primary = self.ui.primary.isChecked()
+
+        # Update visuals on all monitos
+        for name, monitor in self.xrandr_info.items():
+            if name == mon:
+                monitor["primary"] = primary
+            else:
+                if primary:  # There can only be one primary
+                    monitor["primary"] = False
+            monitor["item"].update_visuals(monitor)
+
+    def scale_mode_changed(self):
+        mon = self.ui.screenCombo.currentText()
+        scale_mode = self.ui.scaleModeCombo.currentText()
+        print(f"Set {mon} scale mode to {scale_mode}")
+        if scale_mode == "Manual":
+            self.ui.horizontalScale.setEnabled(True)
+            self.ui.verticalScale.setEnabled(True)
+            try:
+                self.ui.horizontalScale.valueChanged.disconnect(
+                    self.ui.verticalScale.setValue
+                )
+            except RuntimeError:  # Not connected
+                pass
+        elif scale_mode == "Disabled (1x1)":
+            self.ui.verticalScale.setEnabled(False)
+            self.ui.horizontalScale.setEnabled(False)
+            self.ui.horizontalScale.setValue(1000)
+            self.ui.verticalScale.setValue(1000)
+            try:
+                self.ui.horizontalScale.valueChanged.disconnect(
+                    self.ui.verticalScale.setValue
+                )
+            except RuntimeError:  # Not connected
+                pass
+        elif scale_mode == "Automatic: physical dimensions":
+            # Calculate scale factors so that the logical pixels will be the same
+            # size as in the primary window
+            if self.ui.primary.isChecked():
+                print("Has no effect on primary display.")
+                return
+
+            # Find the primary monitor
+            primary = [k for k in self.xrandr_info if self.xrandr_info[k]["primary"]]
+            if not primary:
+                print("Oops, no primary!")
+                return
+            primary = self.xrandr_info[primary[0]]
+            monitor = self.xrandr_info[mon]
+
+            prim_density_x = primary["res_x"] / primary["w_in_mm"]
+            prim_density_y = primary["res_y"] / primary["h_in_mm"]
+
+            dens_x = monitor["res_x"] / monitor["w_in_mm"]
+            dens_y = monitor["res_y"] / monitor["h_in_mm"]
+
+            try:
+                self.ui.horizontalScale.valueChanged.disconnect(
+                    self.ui.verticalScale.setValue
+                )
+            except RuntimeError:  # Not connected
+                pass
+            self.ui.horizontalScale.setEnabled(False)
+            self.ui.verticalScale.setEnabled(False)
+            self.ui.horizontalScale.setValue(prim_density_x / dens_x * 1000)
+            self.ui.verticalScale.setValue(prim_density_y / dens_y * 1000)
+
+        elif scale_mode == "Manual, same in both dimensions":
+            self.ui.horizontalScale.setEnabled(True)
+            self.ui.verticalScale.setEnabled(False)
+            self.ui.horizontalScale.valueChanged.connect(self.ui.verticalScale.setValue)
+            self.ui.verticalScale.setValue(self.ui.horizontalScale.value())
+
+    def replica_changed(self):
+        mon = self.ui.screenCombo.currentText()
+        replicate = self.ui.replicaOf.currentText()
+        print(f"Making {mon} a replica of {replicate}")
+        if replicate in ("None", "", None):
+            print("TODO: make things non-replicas")
+            return
+        mon = self.xrandr_info[mon]
+        replicate = self.xrandr_info[replicate]
+
+        # Making a replica implies:
+        # Set the same position
+        mon["pos_x"] = replicate["pos_x"]
+        mon["pos_y"] = replicate["pos_y"]
+
+        # Set the same mode if possible
+        if replicate["current_mode"] in mon["modes"]:
+            mon["current_mode"] = replicate["current_mode"]
+        else:
+            # Keep the current mode, and change scaling so it
+            # has the same effective size as the desired mode
+            mod_x, mod_y = [int(x) for x in mon["current_mode"].split("x")]
+            target_x, target_y = [replicate[x] for x in ["res_x", "res_y"]]
+            scale_x = 1000 * target_x / mod_x
+            scale_y = 1000 * target_y / mod_y
+            breakpoint()
+            print(target_x, target_y, mod_x, mod_y)
+            print(scale_x, scale_y)
+            self.ui.horizontalScale.setValue(scale_x)
+            self.ui.verticalScale.setValue(scale_y)
+
+        mon["item"].update_visuals(mon)
+
+    def do_reset(self):
+        for n in self.xrandr_info:
+            self.xrandr_info[n].update(self.orig_xrandr_info[n])
+        self.fill_ui()
+
+    def do_ok(self):
+        self.do_apply()
+        self.ui.accept()
+
+    def do_apply(self):
+        cli = gen_xrandr_from_data(self.xrandr_info)
+        print(cli)
+        subprocess.check_call(shlex.split(cli))
+
+    def fill_ui(self):
+        """Load data from xrandr and setup the whole thing."""
+        self.scene = QGraphicsScene(self)
+        self.ui.sceneView.setScene(self.scene)
+        self.ui.screenCombo.clear()
+
+        for name, monitor in self.xrandr_info.items():
+            self.ui.screenCombo.addItem(name)
+            mon_item = MonitorItem(data=monitor, window=self, name=name,)
+            # mon_item.setPos(monitor["pos_x"], monitor["pos_y"])
+            self.scene.addItem(mon_item)
+            monitor["item"] = mon_item
+        self.adjust_view()
+        self.scale_changed()  # Trigger scale labels update
+
+    def orientation_changed(self):
+        mon = self.ui.screenCombo.currentText()
+        orientation = self.ui.orientationCombo.currentIndex()
+        self.xrandr_info[mon]["orientation"] = orientation
+        self.mode_changed()
+
+    def mode_changed(self):
+        mon = self.ui.screenCombo.currentText()
+        mode = self.ui.modes.currentText()
+        if not mode:
+            return
+        print(f"Changing {mon} to {mode}")
+        self.xrandr_info[mon]["current_mode"] = mode
+        mode_x, mode_y = mode.split("x")
+        # use resolution via scaling
+        if self.xrandr_info[mon]["orientation"] in (0, 2):
+            self.xrandr_info[mon]["res_x"] = int(
+                int(mode_x) * self.ui.horizontalScale.value() / 1000
+            )
+            self.xrandr_info[mon]["res_y"] = int(
+                int(mode_y) * self.ui.verticalScale.value() / 1000
+            )
+        else:
+            self.xrandr_info[mon]["res_x"] = int(
+                int(mode_y) * self.ui.horizontalScale.value() / 1000
+            )
+            self.xrandr_info[mon]["res_y"] = int(
+                int(mode_x) * self.ui.verticalScale.value() / 1000
+            )
+        self.xrandr_info[mon]["item"].update_visuals(self.xrandr_info[mon])
+
+    def show_pos(self, x, y):
+        self.pos_label.setText(f"{x},{y}")
+        self.pos_label.resize(self.pos_label.sizeHint())
+
+    def monitor_moved(self):
+        "Update xrandr_info with new monitor positions"
+        for _, mon in self.xrandr_info.items():
+            item = mon["item"]
+            mon["pos_x"] = item.x()
+            mon["pos_y"] = item.y()
+        self.update_replica_of_data()
+        for _, mon in self.xrandr_info.items():
+            mon["item"].update_visuals(mon)
+        self.adjust_view()
+
+    def adjust_view(self):
+        self.ui.sceneView.resetTransform()
+        self.ui.sceneView.ensureVisible(self.scene.sceneRect(), 100, 100)
+        scale_factor = 0.8 * min(
+            self.ui.sceneView.width() / self.scene.sceneRect().width(),
+            self.ui.sceneView.height() / self.scene.sceneRect().height(),
+        )
+        self.ui.sceneView.scale(scale_factor, scale_factor)
+
+    def get_xrandr_info(self):
+        data = subprocess.check_output(["xrandr"]).decode("utf-8").splitlines()
+        name = None
+        for line in data:
+            if line and line[0] not in "S \t":  # Output line
+                (
+                    name,
+                    primary,
+                    res_x,
+                    res_y,
+                    w_in_mm,
+                    h_in_mm,
+                    pos_x,
+                    pos_y,
+                    enabled,
+                    orientation,
+                ) = parse_monitor(line)
+                self.xrandr_info[name] = dict(
+                    primary=primary,
+                    res_x=res_x,
+                    res_y=res_y,
+                    w_in_mm=w_in_mm,
+                    h_in_mm=h_in_mm,
+                    pos_x=pos_x,
+                    pos_y=pos_y,
+                    modes=[],
+                    current_mode=None,
+                    enabled=enabled,
+                    replica_of=[],
+                    orientation=orientation,
+                )
+            elif line[0] == " ":  # A mode
+                mode_name = line.strip().split()[0]
+                self.xrandr_info[name]["modes"].append(mode_name)
+                if "*" in line:
+                    print(f"Current mode for {name}: {mode_name}")
+                    self.xrandr_info[name]["current_mode"] = mode_name
+        self.update_replica_of_data()
+
+    def update_replica_of_data(self):
+        for a in self.xrandr_info:
+            self.xrandr_info[a]["replica_of"] = []
+            for b in self.xrandr_info:
+                if a != b and is_replica_of(self.xrandr_info[a], self.xrandr_info[b]):
+                    self.xrandr_info[a]["replica_of"].append(b)
+
+    def monitor_selected(self, name):
+        if not name:
+            return
+        # needed so we don't flip through all modes as they are added
+        self.ui.modes.blockSignals(True)
+        # Show modes
+        self.ui.modes.clear()
+        for mode in self.xrandr_info[name]["modes"]:
+            self.ui.modes.addItem(mode)
+        if (
+            self.xrandr_info[name]["current_mode"] is None
+        ):  # Happens with turned off monitors
+            self.xrandr_info[name]["enabled"] = False
+            h_scale = v_scale = 1
+        else:
+            self.ui.modes.setCurrentText(self.xrandr_info[name]["current_mode"])
+            mod_x, mod_y = [
+                int(x) for x in self.xrandr_info[name]["current_mode"].split("x")
+            ]
+            if self.xrandr_info[name]["orientation"] in (0, 2):
+                h_scale = self.xrandr_info[name]["res_x"] / mod_x
+                v_scale = self.xrandr_info[name]["res_y"] / mod_y
+            else:
+                h_scale = self.xrandr_info[name]["res_y"] / mod_x
+                v_scale = self.xrandr_info[name]["res_x"] / mod_y
+        self.ui.horizontalScale.setValue(h_scale * 1000)
+        self.ui.verticalScale.setValue(v_scale * 1000)
+        self.ui.primary.setChecked(self.xrandr_info[name]["primary"])
+        self.ui.enabled.setChecked(self.xrandr_info[name]["enabled"])
+        self.ui.orientationCombo.setCurrentIndex(self.xrandr_info[name]["orientation"])
+
+        self.ui.replicaOf.clear()
+        self.ui.replicaOf.addItem("None")
+        for mon in self.xrandr_info:
+            if mon != name:
+                self.ui.replicaOf.addItem(mon)
+                if mon in self.xrandr_info[name]["replica_of"]:
+                    self.ui.replicaOf.setCurrentText(mon)
+        self.ui.modes.blockSignals(False)
+
+    def scale_changed(self):
+        self.ui.horizontalScaleLabel.setText(
+            f"{int(self.ui.horizontalScale.value()/10)}%"
+        )
+        self.ui.verticalScaleLabel.setText(f"{int(self.ui.verticalScale.value()/10)}%")
+        self.mode_changed()  # Not really, but it's the same thing
+
+
+def main():
+    app = QApplication(sys.argv)
+
+    ui_file = QFile(os.path.join(os.path.dirname(__file__), "main.ui"))
+    ui_file.open(QFile.ReadOnly)
+
+    loader = QUiLoader()
+    window = Window(loader.load(ui_file))
+
+    sys.exit(app.exec_())
+
+
+if __name__ == "__main__":
+    main()