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Slight optimization and uses CP font as default
[hackapet/Adafruit_Blinka_Displayio.git] / displayio / _display.py
diff --git a/displayio/_display.py b/displayio/_display.py
index e001577f3e38a5b2c1848d296e19b3aa5921716d..d7d04cf2389dcf5ba1c3badbb42cd754c6851e1b 100644 (file)
--- a/displayio/_display.py
+++ b/displayio/_display.py
@@ -18,7 +18,6 @@ displayio for Blinka
 """
 
 import time
 """
 
 import time
-import struct
 from array import array
 from typing import Optional
 import digitalio
 from array import array
 from typing import Optional
 import digitalio
@@ -27,7 +26,7 @@ from circuitpython_typing import WriteableBuffer, ReadableBuffer
 from ._displaycore import _DisplayCore
 from ._displaybus import _DisplayBus
 from ._colorconverter import ColorConverter
 from ._displaycore import _DisplayCore
 from ._displaybus import _DisplayBus
 from ._colorconverter import ColorConverter
-from ._group import Group
+from ._group import Group, circuitpython_splash
 from ._area import Area
 from ._constants import (
     CHIP_SELECT_TOGGLE_EVERY_BYTE,
 from ._area import Area
 from ._constants import (
     CHIP_SELECT_TOGGLE_EVERY_BYTE,
@@ -157,11 +156,10 @@ class Display:
         self._auto_refresh = auto_refresh
 
         self._initialize(init_sequence)
         self._auto_refresh = auto_refresh
 
         self._initialize(init_sequence)
+
         self._current_group = None
         self._last_refresh_call = 0
         self._refresh_thread = None
         self._current_group = None
         self._last_refresh_call = 0
         self._refresh_thread = None
-        if self._auto_refresh:
-            self.auto_refresh = True
         self._colorconverter = ColorConverter()
 
         self._backlight_type = None
         self._colorconverter = ColorConverter()
 
         self._backlight_type = None
@@ -179,7 +177,10 @@ class Display:
                 self._backlight_type = BACKLIGHT_IN_OUT
                 self._backlight = digitalio.DigitalInOut(backlight_pin)
                 self._backlight.switch_to_output()
                 self._backlight_type = BACKLIGHT_IN_OUT
                 self._backlight = digitalio.DigitalInOut(backlight_pin)
                 self._backlight.switch_to_output()
-            self.brightness = brightness
+        self.brightness = brightness
+        if not circuitpython_splash._in_group:
+            self._set_root_group(circuitpython_splash)
+        self.auto_refresh = auto_refresh
 
     def __new__(cls, *args, **kwargs):
         from . import (  # pylint: disable=import-outside-toplevel, cyclic-import
 
     def __new__(cls, *args, **kwargs):
         from . import (  # pylint: disable=import-outside-toplevel, cyclic-import
@@ -235,7 +236,14 @@ class Display:
         """Switches to displaying the given group of layers. When group is None, the
         default CircuitPython terminal will be shown.
         """
         """Switches to displaying the given group of layers. When group is None, the
         default CircuitPython terminal will be shown.
         """
-        self._core.show(group)
+        if group is None:
+            group = circuitpython_splash
+        self._core.set_root_group(group)
+
+    def _set_root_group(self, root_group: Group) -> None:
+        ok = self._core.set_root_group(root_group)
+        if not ok:
+            raise ValueError("Group already used")
 
     def refresh(
         self,
 
     def refresh(
         self,
@@ -323,15 +331,18 @@ class Display:
         buffer_size = 128
 
         clipped = Area()
         buffer_size = 128
 
         clipped = Area()
+        # Clip the area to the display by overlapping the areas.
+        # If there is no overlap then we're done.
         if not self._core.clip_area(area, clipped):
             return True
 
         rows_per_buffer = clipped.height()
         if not self._core.clip_area(area, clipped):
             return True
 
         rows_per_buffer = clipped.height()
-        pixels_per_word = (struct.calcsize("I") * 8) // self._core.colorspace.depth
+        pixels_per_word = 32 // self._core.colorspace.depth
         pixels_per_buffer = clipped.size()
 
         subrectangles = 1
         pixels_per_buffer = clipped.size()
 
         subrectangles = 1
-
+        # for SH1107 and other boundary constrained controllers
+        #      write one single row at a time
         if self._core.sh1107_addressing:
             subrectangles = rows_per_buffer // 8
             rows_per_buffer = 8
         if self._core.sh1107_addressing:
             subrectangles = rows_per_buffer // 8
             rows_per_buffer = 8
@@ -339,6 +350,7 @@ class Display:
             rows_per_buffer = buffer_size * pixels_per_word // clipped.width()
             if rows_per_buffer == 0:
                 rows_per_buffer = 1
             rows_per_buffer = buffer_size * pixels_per_word // clipped.width()
             if rows_per_buffer == 0:
                 rows_per_buffer = 1
+            # If pixels are packed by column then ensure rows_per_buffer is on a byte boundary
             if (
                 self._core.colorspace.depth < 8
                 and self._core.colorspace.pixels_in_byte_share_row
             if (
                 self._core.colorspace.depth < 8
                 and self._core.colorspace.pixels_in_byte_share_row
@@ -353,10 +365,7 @@ class Display:
             buffer_size = pixels_per_buffer // pixels_per_word
             if pixels_per_buffer % pixels_per_word:
                 buffer_size += 1
             buffer_size = pixels_per_buffer // pixels_per_word
             if pixels_per_buffer % pixels_per_word:
                 buffer_size += 1
-
-        buffer = bytearray([0] * (buffer_size * struct.calcsize("I")))
-        mask_length = (pixels_per_buffer // 32) + 1
-        mask = array("L", [0] * mask_length)
+        mask_length = (pixels_per_buffer // 8) + 1  # 1 bit per pixel + 1
         remaining_rows = clipped.height()
 
         for subrect_index in range(subrectangles):
         remaining_rows = clipped.height()
 
         for subrect_index in range(subrectangles):
@@ -368,6 +377,7 @@ class Display:
             )
             if remaining_rows < rows_per_buffer:
                 subrectangle.y2 = subrectangle.y1 + remaining_rows
             )
             if remaining_rows < rows_per_buffer:
                 subrectangle.y2 = subrectangle.y1 + remaining_rows
+            remaining_rows -= rows_per_buffer
             self._core.set_region_to_update(subrectangle)
             if self._core.colorspace.depth >= 8:
                 subrectangle_size_bytes = subrectangle.size() * (
             self._core.set_region_to_update(subrectangle)
             if self._core.colorspace.depth >= 8:
                 subrectangle_size_bytes = subrectangle.size() * (
@@ -378,8 +388,9 @@ class Display:
                     8 // self._core.colorspace.depth
                 )
 
                     8 // self._core.colorspace.depth
                 )
 
+            buffer = memoryview(bytearray([0] * (buffer_size * 4)))
+            mask = memoryview(bytearray([0] * mask_length))
             self._core.fill_area(subrectangle, mask, buffer)
             self._core.fill_area(subrectangle, mask, buffer)
-
             self._core.begin_transaction()
             self._send_pixels(buffer[:subrectangle_size_bytes])
             self._core.end_transaction()
             self._core.begin_transaction()
             self._send_pixels(buffer[:subrectangle_size_bytes])
             self._core.end_transaction()
@@ -391,13 +402,13 @@ class Display:
             raise ValueError("Display must have a 16 bit colorspace.")
 
         area = Area(0, y, self._core.width, y + 1)
             raise ValueError("Display must have a 16 bit colorspace.")
 
         area = Area(0, y, self._core.width, y + 1)
-        pixels_per_word = (struct.calcsize("I") * 8) // self._core.colorspace.depth
+        pixels_per_word = 32 // self._core.colorspace.depth
         buffer_size = self._core.width // pixels_per_word
         pixels_per_buffer = area.size()
         if pixels_per_buffer % pixels_per_word:
             buffer_size += 1
 
         buffer_size = self._core.width // pixels_per_word
         pixels_per_buffer = area.size()
         if pixels_per_buffer % pixels_per_word:
             buffer_size += 1
 
-        buffer = bytearray([0] * (buffer_size * struct.calcsize("I")))
+        buffer = bytearray([0] * (buffer_size * 4))
         mask_length = (pixels_per_buffer // 32) + 1
         mask = array("L", [0x00000000] * mask_length)
         self._core.fill_area(area, mask, buffer)
         mask_length = (pixels_per_buffer // 32) + 1
         mask = array("L", [0x00000000] * mask_length)
         self._core.fill_area(area, mask, buffer)
@@ -411,6 +422,10 @@ class Display:
     def reset(self) -> None:
         """Reset the display"""
         self.auto_refresh = True
     def reset(self) -> None:
         """Reset the display"""
         self.auto_refresh = True
+        circuitpython_splash.x = 0
+        circuitpython_splash.y = 0
+        if not circuitpython_splash._in_group:  # pylint: disable=protected-access
+            self._set_root_group(circuitpython_splash)
 
     @property
     def auto_refresh(self) -> bool:
 
     @property
     def auto_refresh(self) -> bool:
Displayio for Blinka