ii-pix/screen.py

import numpy as np
import palette as palette_py


class Screen:
    X_RES = None
    Y_RES = None
    X_PIXEL_WIDTH = None

    def __init__(self, palette: palette_py.Palette):
        self.main = np.zeros(8192, dtype=np.uint8)
        self.aux = np.zeros(8192, dtype=np.uint8)
        self.palette = palette

    @staticmethod
    def y_to_base_addr(y: int) -> int:
        """Maps y coordinate to screen memory base address."""
        a = y // 64
        d = y - 64 * a
        b = d // 8
        c = d - 8 * b

        return 1024 * c + 128 * b + 40 * a

    def _image_to_bitmap(self, image: np.ndarray) -> np.ndarray:
        raise NotImplementedError

    def pack(self, image: np.ndarray):
        bitmap = self._image_to_bitmap(image)
        # The DHGR display encodes 7 pixels across interleaved 4-byte sequences
        # of AUX and MAIN memory, as follows:
        # PBBBAAAA PDDCCCCB PFEEEEDD PGGGGFFF
        # Aux N    Main N   Aux N+1  Main N+1  (N even)
        main_col = np.zeros(
            (self.Y_RES, self.X_RES * self.X_PIXEL_WIDTH // 14), dtype=np.uint8)
        aux_col = np.zeros(
            (self.Y_RES, self.X_RES * self.X_PIXEL_WIDTH // 14), dtype=np.uint8)
        for byte_offset in range(80):
            column = np.zeros(self.Y_RES, dtype=np.uint8)
            for bit in range(7):
                column |= (bitmap[:, 7 * byte_offset + bit].astype(
                    np.uint8) << bit)
            if byte_offset % 2 == 0:
                aux_col[:, byte_offset // 2] = column
            else:
                main_col[:, (byte_offset - 1) // 2] = column

        for y in range(self.Y_RES):
            addr = self.y_to_base_addr(y)
            self.aux[addr:addr + 40] = aux_col[y, :]
            self.main[addr:addr + 40] = main_col[y, :]

        return bitmap

    def bitmap_to_image_rgb(self, bitmap: np.ndarray) -> np.ndarray:
        image_rgb = np.empty((192, 560, 3), dtype=np.uint8)
        for y in range(self.Y_RES):
            pixel = [False, False, False, False]
            for x in range(560):
                pixel[x % 4] = bitmap[y, x]
                dots = self.palette.DOTS_TO_4BIT[tuple(pixel)]
                image_rgb[y, x, :] = self.palette.RGB[dots]
        return image_rgb

    def pixel_palette_options(self, last_pixel_4bit, x: int):
        raise NotImplementedError


class DHGR140Screen(Screen):
    """DHGR screen ignoring colour fringing, i.e. treating as 140x192x16."""

    X_RES = 140
    Y_RES = 192
    X_PIXEL_WIDTH = 4

    def _image_to_bitmap(self, image_4bit: np.ndarray) -> np.ndarray:
        bitmap = np.zeros(
            (self.Y_RES, self.X_RES * self.X_PIXEL_WIDTH), dtype=np.bool)
        for y in range(self.Y_RES):
            for x in range(self.X_RES):
                pixel = image_4bit[y, x]
                dots = self.palette.DOTS[pixel]
                bitmap[y, x * self.X_PIXEL_WIDTH:(
                        (x + 1) * self.X_PIXEL_WIDTH)] = dots
        return bitmap

    def pixel_palette_options(self, last_pixel_4bit, x: int):
        return (
            np.array(list(self.palette.RGB.keys()), dtype=np.uint8),
            np.array(list(self.palette.RGB.values()), dtype=np.uint8))


class DHGR560Screen(Screen):
    """DHGR screen including colour fringing."""
    X_RES = 560
    Y_RES = 192
    X_PIXEL_WIDTH = 1

    def _image_to_bitmap(self, image_4bit: np.ndarray) -> np.ndarray:
        bitmap = np.zeros((self.Y_RES, self.X_RES), dtype=np.bool)
        for y in range(self.Y_RES):
            for x in range(self.X_RES):
                pixel = image_4bit[y, x]
                dots = self.palette.DOTS[pixel]
                phase = x % 4
                bitmap[y, x] = dots[phase]
        return bitmap

    def pixel_palette_options(self, last_pixel_4bit, x: int):
        last_dots = self.palette.DOTS[last_pixel_4bit]
        other_dots = list(last_dots)
        other_dots[x % 4] = not other_dots[x % 4]
        other_dots = tuple(other_dots)
        other_pixel_4bit = self.palette.DOTS_TO_4BIT[other_dots]
        return (
            np.array([last_pixel_4bit, other_pixel_4bit], dtype=np.uint8),
            np.array([self.palette.RGB[last_pixel_4bit],
                      self.palette.RGB[other_pixel_4bit]], dtype=np.uint8))
Refactor a bit 2021-01-15 22:18:25 +00:00			`import numpy as np`
			`import palette as palette_py`


			`class Screen:`
			`X_RES = None`
			`Y_RES = None`
			`X_PIXEL_WIDTH = None`

			`def __init__(self, palette: palette_py.Palette):`
			`self.main = np.zeros(8192, dtype=np.uint8)`
			`self.aux = np.zeros(8192, dtype=np.uint8)`
			`self.palette = palette`

			`@staticmethod`
			`def y_to_base_addr(y: int) -> int:`
			`"""Maps y coordinate to screen memory base address."""`
			`a = y // 64`
			`d = y - 64 * a`
			`b = d // 8`
			`c = d - 8 * b`

			`return 1024 * c + 128 * b + 40 * a`

			`def _image_to_bitmap(self, image: np.ndarray) -> np.ndarray:`
			`raise NotImplementedError`

			`def pack(self, image: np.ndarray):`
			`bitmap = self._image_to_bitmap(image)`
			`# The DHGR display encodes 7 pixels across interleaved 4-byte sequences`
			`# of AUX and MAIN memory, as follows:`
			`# PBBBAAAA PDDCCCCB PFEEEEDD PGGGGFFF`
			`# Aux N Main N Aux N+1 Main N+1 (N even)`
			`main_col = np.zeros(`
			`(self.Y_RES, self.X_RES * self.X_PIXEL_WIDTH // 14), dtype=np.uint8)`
			`aux_col = np.zeros(`
			`(self.Y_RES, self.X_RES * self.X_PIXEL_WIDTH // 14), dtype=np.uint8)`
			`for byte_offset in range(80):`
			`column = np.zeros(self.Y_RES, dtype=np.uint8)`
			`for bit in range(7):`
			`column \|= (bitmap[:, 7 * byte_offset + bit].astype(`
			`np.uint8) << bit)`
			`if byte_offset % 2 == 0:`
			`aux_col[:, byte_offset // 2] = column`
			`else:`
			`main_col[:, (byte_offset - 1) // 2] = column`

			`for y in range(self.Y_RES):`
			`addr = self.y_to_base_addr(y)`
			`self.aux[addr:addr + 40] = aux_col[y, :]`
			`self.main[addr:addr + 40] = main_col[y, :]`

In 140px resolution show the output image with and without NTSC fringing 2021-01-16 18:11:21 +00:00			`return bitmap`

			`def bitmap_to_image_rgb(self, bitmap: np.ndarray) -> np.ndarray:`
			`image_rgb = np.empty((192, 560, 3), dtype=np.uint8)`
			`for y in range(self.Y_RES):`
			`pixel = [False, False, False, False]`
			`for x in range(560):`
			`pixel[x % 4] = bitmap[y, x]`
			`dots = self.palette.DOTS_TO_4BIT[tuple(pixel)]`
			`image_rgb[y, x, :] = self.palette.RGB[dots]`
			`return image_rgb`

Refactor a bit 2021-01-15 22:18:25 +00:00			`def pixel_palette_options(self, last_pixel_4bit, x: int):`
			`raise NotImplementedError`


			`class DHGR140Screen(Screen):`
			`"""DHGR screen ignoring colour fringing, i.e. treating as 140x192x16."""`

			`X_RES = 140`
			`Y_RES = 192`
			`X_PIXEL_WIDTH = 4`

			`def _image_to_bitmap(self, image_4bit: np.ndarray) -> np.ndarray:`
			`bitmap = np.zeros(`
			`(self.Y_RES, self.X_RES * self.X_PIXEL_WIDTH), dtype=np.bool)`
			`for y in range(self.Y_RES):`
			`for x in range(self.X_RES):`
Re-enable 140px mode 2021-01-15 22:58:01 +00:00			`pixel = image_4bit[y, x]`
Refactor a bit 2021-01-15 22:18:25 +00:00			`dots = self.palette.DOTS[pixel]`
			`bitmap[y, x * self.X_PIXEL_WIDTH:(`
			`(x + 1) * self.X_PIXEL_WIDTH)] = dots`
			`return bitmap`

			`def pixel_palette_options(self, last_pixel_4bit, x: int):`
Re-enable 140px mode 2021-01-15 22:58:01 +00:00			`return (`
			`np.array(list(self.palette.RGB.keys()), dtype=np.uint8),`
			`np.array(list(self.palette.RGB.values()), dtype=np.uint8))`
Refactor a bit 2021-01-15 22:18:25 +00:00

			`class DHGR560Screen(Screen):`
			`"""DHGR screen including colour fringing."""`
			`X_RES = 560`
			`Y_RES = 192`
			`X_PIXEL_WIDTH = 1`

			`def _image_to_bitmap(self, image_4bit: np.ndarray) -> np.ndarray:`
			`bitmap = np.zeros((self.Y_RES, self.X_RES), dtype=np.bool)`
			`for y in range(self.Y_RES):`
			`for x in range(self.X_RES):`
			`pixel = image_4bit[y, x]`
			`dots = self.palette.DOTS[pixel]`
			`phase = x % 4`
			`bitmap[y, x] = dots[phase]`
			`return bitmap`

			`def pixel_palette_options(self, last_pixel_4bit, x: int):`
			`last_dots = self.palette.DOTS[last_pixel_4bit]`
			`other_dots = list(last_dots)`
			`other_dots[x % 4] = not other_dots[x % 4]`
			`other_dots = tuple(other_dots)`
			`other_pixel_4bit = self.palette.DOTS_TO_4BIT[other_dots]`
			`return (`
Re-enable 140px mode 2021-01-15 22:58:01 +00:00			`np.array([last_pixel_4bit, other_pixel_4bit], dtype=np.uint8),`
Refactor a bit 2021-01-15 22:18:25 +00:00			`np.array([self.palette.RGB[last_pixel_4bit],`
Re-enable 140px mode 2021-01-15 22:58:01 +00:00			`self.palette.RGB[other_pixel_4bit]], dtype=np.uint8))`