def current_mouse_pos(window, camera_render_size, frame_size):
content_scale = gl_utils.get_content_scale(window)
x, y = glfw.get_cursor_pos(glfw.get_current_context())
pos = x * content_scale, y * content_scale
pos = normalize(pos, camera_render_size)
# Position in img pixels
pos = denormalize(pos, frame_size)
return (int(pos[0]), int(pos[1]))
def on_window_resize(self, window, *args):
fb_size = glfw.get_framebuffer_size(window)
content_scale = gl_utils.get_content_scale(window)
self.cpu_graph.scale = content_scale
self.fps_graph.scale = content_scale
self.conf0_graph.scale = content_scale
self.conf1_graph.scale = content_scale
self.cpu_graph.adjust_window_size(*fb_size)
self.fps_graph.adjust_window_size(*fb_size)
self.conf0_graph.adjust_window_size(*fb_size)
self.conf1_graph.adjust_window_size(*fb_size)
def on_resize(window, w, h):
# Always clear buffers on resize to make sure that there are no overlapping
# artifacts from previous frames.
gl_utils.glClear(gl_utils.GL_COLOR_BUFFER_BIT)
gl_utils.glClearColor(0, 0, 0, 1)
self.window_size = w, h
self.content_scale = gl_utils.get_content_scale(window)
g_pool.gui.scale = self.content_scale
g_pool.gui.update_window(w, h)
g_pool.gui.collect_menus()
# Needed, to update the window buffer while resizing
self.update_ui()
def set_window_size():
# Get default window size
f_width, f_height = window_size_default
# Get current display scale factor
content_scale = gl_utils.get_content_scale(main_window)
framebuffer_scale = gl_utils.get_framebuffer_scale(main_window)
display_scale_factor = content_scale / framebuffer_scale
# Scale the capture frame size by display scale factor
f_width *= display_scale_factor
f_height *= display_scale_factor
# Set the newly calculated size (scaled capture frame size + scaled icon bar width)
glfw.set_window_size(main_window, int(f_width), int(f_height))
def on_resize(window, w, h):
nonlocal window_size
nonlocal content_scale
is_minimized = bool(glfw.get_window_attrib(window, glfw.ICONIFIED))
if is_minimized:
return
# Always clear buffers on resize to make sure that there are no overlapping
# artifacts from previous frames.
gl_utils.glClear(GL_COLOR_BUFFER_BIT)
gl_utils.glClearColor(0, 0, 0, 1)
active_window = glfw.get_current_context()
glfw.make_context_current(window)
content_scale = gl_utils.get_content_scale(window)
framebuffer_scale = gl_utils.get_framebuffer_scale(window)
g_pool.gui.scale = content_scale
window_size = w, h
g_pool.camera_render_size = w - int(
icon_bar_width * g_pool.gui.scale), h
g_pool.gui.update_window(w, h)
g_pool.gui.collect_menus()
for g in g_pool.graphs:
g.scale = content_scale
g.adjust_window_size(w, h)
adjust_gl_view(w, h)
glfw.make_context_current(active_window)
# Minimum window size required, otherwise parts of the UI can cause openGL
# issues with permanent effects. Depends on the content scale, which can
# potentially be dynamically modified, so we re-adjust the size limits every
# time here.
min_size = int(2 * icon_bar_width * g_pool.gui.scale /
framebuffer_scale)
glfw.set_window_size_limits(
window,
min_size,
min_size,
glfw.DONT_CARE,
glfw.DONT_CARE,
)
# Needed, to update the window buffer while resizing
consume_events_and_render_buffer()
def set_window_size():
# Get current capture frame size
f_width, f_height = g_pool.capture.frame_size
# Get current display scale factor
content_scale = gl_utils.get_content_scale(main_window)
framebuffer_scale = gl_utils.get_framebuffer_scale(main_window)
display_scale_factor = content_scale / framebuffer_scale
# Scale the capture frame size by display scale factor
f_width *= display_scale_factor
f_height *= display_scale_factor
# Increas the width to account for the added scaled icon bar width
f_width += icon_bar_width * display_scale_factor
# Set the newly calculated size (scaled capture frame size + scaled icon bar width)
glfw.set_window_size(main_window, int(f_width), int(f_height))
def get_init_dict(self):
sess = {
"window_position": glfw.get_window_pos(self.g_pool.main_window),
"ui_config": self.g_pool.gui.configuration,
}
session_window_size = glfw.get_window_size(self.g_pool.main_window)
if 0 not in session_window_size:
f_width, f_height = session_window_size
if platform.system() in ("Windows", "Linux"):
content_scale = gl_utils.get_content_scale(self.g_pool.main_window)
f_width, f_height = (
f_width / content_scale,
f_height / content_scale,
)
sess["window_size"] = int(f_width), int(f_height)
return sess
def on_resize(window, w, h):
nonlocal window_size
nonlocal camera_render_size
nonlocal content_scale
if w == 0 or h == 0:
return
# Always clear buffers on resize to make sure that there are no overlapping
# artifacts from previous frames.
gl_utils.glClear(GL_COLOR_BUFFER_BIT)
gl_utils.glClearColor(0, 0, 0, 1)
content_scale = gl_utils.get_content_scale(window)
framebuffer_scale = gl_utils.get_framebuffer_scale(window)
g_pool.gui.scale = content_scale
window_size = w, h
camera_render_size = w - int(icon_bar_width * g_pool.gui.scale), h
g_pool.gui.update_window(*window_size)
g_pool.gui.collect_menus()
for p in g_pool.plugins:
p.on_window_resize(window, *camera_render_size)
# Minimum window size required, otherwise parts of the UI can cause openGL
# issues with permanent effects. Depends on the content scale, which can
# potentially be dynamically modified, so we re-adjust the size limits every
# time here.
min_size = int(2 * icon_bar_width * g_pool.gui.scale /
framebuffer_scale)
glfw.set_window_size_limits(
window,
min_size,
min_size,
glfw.DONT_CARE,
glfw.DONT_CARE,
)
# Needed, to update the window buffer while resizing
with gl_utils.current_context(main_window):
consume_events_and_render_buffer()
def set_window_size():
# Get current capture frame size
f_width, f_height = g_pool.capture.frame_size
# Eye camera resolutions are too small to be used as default window sizes.
# We use double their size instead.
frame_scale_factor = 2
f_width *= frame_scale_factor
f_height *= frame_scale_factor
# Get current display scale factor
content_scale = gl_utils.get_content_scale(main_window)
framebuffer_scale = gl_utils.get_framebuffer_scale(main_window)
display_scale_factor = content_scale / framebuffer_scale
# Scale the capture frame size by display scale factor
f_width *= display_scale_factor
f_height *= display_scale_factor
# Increas the width to account for the added scaled icon bar width
f_width += icon_bar_width * display_scale_factor
# Set the newly calculated size (scaled capture frame size + scaled icon bar width)
glfw.set_window_size(main_window, int(f_width), int(f_height))
def on_window_resize(self, window, w, h):
self.window_scale = gl_utils.get_content_scale(window)
self.glfont.set_size(32 * self.window_scale)
self.window_size = w, h
self.tex.resize(*self.window_size)
self.should_redraw = True
def player_drop(rec_dir, ipc_pub_url, ipc_sub_url, ipc_push_url, user_dir,
app_version, debug):
# general imports
import logging
# networking
import zmq
import zmq_tools
from time import sleep
# zmq ipc setup
zmq_ctx = zmq.Context()
ipc_pub = zmq_tools.Msg_Dispatcher(zmq_ctx, ipc_push_url)
# log setup
logging.getLogger("OpenGL").setLevel(logging.ERROR)
logger = logging.getLogger()
logger.handlers = []
logger.setLevel(logging.INFO)
logger.addHandler(zmq_tools.ZMQ_handler(zmq_ctx, ipc_push_url))
# create logger for the context of this function
logger = logging.getLogger(__name__)
try:
import glfw
from gl_utils import GLFWErrorReporting
GLFWErrorReporting.set_default()
import gl_utils
from OpenGL.GL import glClearColor
from version_utils import parse_version
from file_methods import Persistent_Dict
from pyglui.pyfontstash import fontstash
from pyglui.ui import get_roboto_font_path
import player_methods as pm
from pupil_recording import (
assert_valid_recording_type,
InvalidRecordingException,
)
from pupil_recording.update import update_recording
process_was_interrupted = False
def interrupt_handler(sig, frame):
import traceback
trace = traceback.format_stack(f=frame)
logger.debug(f"Caught signal {sig} in:\n" + "".join(trace))
nonlocal process_was_interrupted
process_was_interrupted = True
signal.signal(signal.SIGINT, interrupt_handler)
def on_drop(window, paths):
nonlocal rec_dir
rec_dir = paths[0]
if rec_dir:
try:
assert_valid_recording_type(rec_dir)
except InvalidRecordingException as err:
logger.error(str(err))
rec_dir = None
# load session persistent settings
session_settings = Persistent_Dict(
os.path.join(user_dir, "user_settings_player"))
if parse_version(session_settings.get("version",
"0.0")) != app_version:
logger.info(
"Session setting are from a different version of this app. I will not use those."
)
session_settings.clear()
w, h = session_settings.get("window_size", (1280, 720))
glfw.init()
glfw.window_hint(glfw.SCALE_TO_MONITOR, glfw.TRUE)
glfw.window_hint(glfw.RESIZABLE, 0)
window = glfw.create_window(w, h, "Pupil Player", None, None)
glfw.window_hint(glfw.RESIZABLE, 1)
glfw.make_context_current(window)
window_position_manager = gl_utils.WindowPositionManager()
window_pos = window_position_manager.new_window_position(
window=window,
default_position=window_position_default,
previous_position=session_settings.get("window_position", None),
)
glfw.set_window_pos(window, window_pos[0], window_pos[1])
glfw.set_drop_callback(window, on_drop)
glfont = fontstash.Context()
glfont.add_font("roboto", get_roboto_font_path())
glfont.set_align_string(v_align="center", h_align="middle")
glfont.set_color_float((0.2, 0.2, 0.2, 0.9))
gl_utils.basic_gl_setup()
glClearColor(0.5, 0.5, 0.5, 0.0)
text = "Drop a recording directory onto this window."
tip = "(Tip: You can drop a recording directory onto the app icon.)"
# text = "Please supply a Pupil recording directory as first arg when calling Pupil Player."
def display_string(string, font_size, center_y):
x = w / 2 * content_scale
y = center_y * content_scale
glfont.set_size(font_size * content_scale)
glfont.set_blur(10.5)
glfont.set_color_float((0.0, 0.0, 0.0, 1.0))
glfont.draw_text(x, y, string)
glfont.set_blur(0.96)
glfont.set_color_float((1.0, 1.0, 1.0, 1.0))
glfont.draw_text(x, y, string)
while not glfw.window_should_close(
window) and not process_was_interrupted:
fb_size = glfw.get_framebuffer_size(window)
content_scale = gl_utils.get_content_scale(window)
gl_utils.adjust_gl_view(*fb_size)
if rec_dir:
try:
assert_valid_recording_type(rec_dir)
logger.info(
"Starting new session with '{}'".format(rec_dir))
text = "Updating recording format."
tip = "This may take a while!"
except InvalidRecordingException as err:
logger.error(str(err))
if err.recovery:
text = err.reason
tip = err.recovery
else:
text = "Invalid recording"
tip = err.reason
rec_dir = None
gl_utils.clear_gl_screen()
display_string(text, font_size=51, center_y=216)
for idx, line in enumerate(tip.split("\n")):
tip_font_size = 42
center_y = 288 + tip_font_size * idx * 1.2
display_string(line,
font_size=tip_font_size,
center_y=center_y)
glfw.swap_buffers(window)
if rec_dir:
try:
update_recording(rec_dir)
except AssertionError as err:
logger.error(str(err))
tip = "Oops! There was an error updating the recording."
rec_dir = None
except InvalidRecordingException as err:
logger.error(str(err))
if err.recovery:
text = err.reason
tip = err.recovery
else:
text = "Invalid recording"
tip = err.reason
rec_dir = None
else:
glfw.set_window_should_close(window, True)
glfw.poll_events()
session_settings["window_position"] = glfw.get_window_pos(window)
session_settings.close()
glfw.destroy_window(window)
if rec_dir:
ipc_pub.notify({
"subject": "player_process.should_start",
"rec_dir": rec_dir
})
except Exception:
import traceback
trace = traceback.format_exc()
logger.error(
"Process player_drop crashed with trace:\n{}".format(trace))
finally:
sleep(1.0)
def content_scale(self) -> float:
if self.__gl_handle is not None:
return gl_utils.get_content_scale(self.__gl_handle)
else:
return 1.0