1 files changed, 90 insertions, 37 deletions
diff --git a/gfx-iso/asset/mkasset.py b/gfx-iso/asset/mkasset.py
index b4e335f..3ca8a1d 100644
--- a/gfx-iso/asset/mkasset.py
+++ b/gfx-iso/asset/mkasset.py
@@ -165,44 +165,57 @@ def get_num_cols(image, sprite_width):
    return 0
-def get_sprite_sheet_rows(input_filepath, sprite_width, sprite_height):
+def get_sprite_sheet_rows(im, sprite_width, sprite_height):
    """Gets the individual rows of a sprite sheet.
    The input sprite sheet can have any number of rows.
-    Returns a list of lists [[sprite bytes]], one inner list for the columns in
+    Returns a list of lists [[sprite]], one inner list for the columns in each
-    each row.
+    row.
    """
-    with Image.open(input_filepath) as im:
+    # Sprite sheet's width and height must be integer multiples of the
-        # Sprite sheet's width and height must be integer multiples of the
+    # sprite's width and height.
-        # sprite's width and height.
+    assert (im.width % sprite_width == 0)
-        assert (im.width % sprite_width == 0)
+    assert (im.height % sprite_height == 0)
-        assert (im.height % sprite_height == 0)
-        num_rows = im.height // sprite_height
+    num_rows = im.height // sprite_height
-        rows = []
+    rows = []
-        for row in range(num_rows):
+    for row in range(num_rows):
-            # Get the number of columns.
+        # Get the number of columns.
-            upper = row * sprite_height
+        upper = row * sprite_height
-            lower = (row + 1) * sprite_height
+        lower = (row + 1) * sprite_height
-            whole_row = im.crop((0, upper, im.width, lower))
+        whole_row = im.crop((0, upper, im.width, lower))
-            num_cols = get_num_cols(whole_row, sprite_width)
+        num_cols = get_num_cols(whole_row, sprite_width)
-            assert (num_cols > 0)
+        assert (num_cols > 0)
-            # Crop the row into N columns.
+        # Crop the row into N columns.
-            cols = []
+        cols = []
-            for i in range(num_cols):
+        for i in range(num_cols):
-                left = i * sprite_width
+            left = i * sprite_width
-                right = (i + 1) * sprite_width
+            right = (i + 1) * sprite_width
-                sprite = im.crop((left, upper, right, lower))
+            sprite = im.crop((left, upper, right, lower))
-                cols.append(sprite)
+            cols.append(sprite)
-            sprite_bytes = [sprite.convert('RGBA').tobytes() for sprite in cols]
+        assert (len(cols) == num_cols)
-            assert (len(sprite_bytes) == num_cols)
+        rows.append(cols)
-            rows.append(sprite_bytes)
+    return rows
-        return rows
+def make_image_from_rows(rows, sprite_width, sprite_height):
+    """Concatenate the rows into a single RGBA image."""
+    im_width = sprite_width * max(len(row) for row in rows)
+    im_height = len(rows) * sprite_height
+    im = Image.new('RGBA', (im_width, im_height))
+    y = 0
+    for row in rows:
+        x = 0
+        for sprite in row:
+            im.paste(sprite.convert('RGBA'), (x, y))
+            x += sprite_width
+        y += sprite_height
+    return im
 def convert_sprite_sheet(input_file_paths, sprite_width, sprite_height,
@@ -217,25 +230,65 @@ def convert_sprite_sheet(input_file_paths, sprite_width, sprite_height,
    sprite sheets.
    """
    rows = []
+    for input_filepath in input_file_paths:
+        with Image.open(input_filepath) as sprite_sheet:
+            rows.extend(
+                get_sprite_sheet_rows(sprite_sheet, sprite_width,
+                                      sprite_height))
-    for sprite_sheet in input_file_paths:
+    im = make_image_from_rows(rows, sprite_width, sprite_height)
-        rows.extend(
+    im = im.convert(mode="P", palette=Image.ADAPTIVE, colors=256)
-            get_sprite_sheet_rows(sprite_sheet, sprite_width, sprite_height))
+    # The sprite data in 'rows' is no longer needed.
+    # Keep just the number of columns per row.
+    rows = [len(row) for row in rows]
    with open(output_filepath, 'bw') as output:
        output.write(ctypes.c_uint16(sprite_width))
        output.write(ctypes.c_uint16(sprite_height))
        output.write(ctypes.c_uint16(len(rows)))
+        # Write palette.
+        # getpalette() returns 256 colors, but the palette might use less than
+        # that. getcolors() returns the number of unique colors.
+        # getpalette() also returns a flattened list, which is why we must *4.
+        num_colours = len(im.getcolors())
+        colours = im.getpalette(rawmode="RGBA")[:4 * num_colours]
+        palette = []
+        for i in range(0, 4 * num_colours, 4):
+            palette.append((colours[i], colours[i + 1], colours[i + 2],
+                            colours[i + 3]))
+        output.write(ctypes.c_uint16(len(palette)))
+        output.write(bytearray(colours))
        print(f"Sprite width:  {sprite_width}")
        print(f"Sprite height: {sprite_height}")
        print(f"Rows:          {len(rows)}")
+        print(f"Colours:       {len(palette)}")
+        # print("Palette")
+        # for i, colour in enumerate(palette):
+        #     print(f"{i}: {colour}")
-        for sprites in rows:
+        for row, num_columns in enumerate(rows):
-            output.write(ctypes.c_uint16(len(sprites)))
+            output.write(ctypes.c_uint16(num_columns))
-            for sprite_bytes in sprites:
+            upper = row * sprite_height
+            lower = (row + 1) * sprite_height
+            for col in range(num_columns):
+                left = col * sprite_width
+                right = (col + 1) * sprite_width
+                sprite = im.crop((left, upper, right, lower))
+                sprite_bytes = sprite.tobytes()
+                assert (len(sprite_bytes) == sprite_width * sprite_height)
                output.write(sprite_bytes)
+                # if (row == 0) and (col == 0):
+                #     print(f"Sprite: ({len(sprite_bytes)})")
+                #     print(list(sprite_bytes))
+                #     sprite.save("out.png")
 def main():
    parser = argparse.ArgumentParser()

diff --git a/gfx-iso/asset/mkasset.py b/gfx-iso/asset/mkasset.py index b4e335f..3ca8a1d 100644 --- a/gfx-iso/asset/mkasset.py +++ b/gfx-iso/asset/mkasset.py
@@ -165,44 +165,57 @@ def get_num_cols(image, sprite_width):
165	return 0	165	return 0
166		166
167		167
168	def get_sprite_sheet_rows(input_filepath, sprite_width, sprite_height):	168	def get_sprite_sheet_rows(im, sprite_width, sprite_height):
169	"""Gets the individual rows of a sprite sheet.	169	"""Gets the individual rows of a sprite sheet.
170		170
171	The input sprite sheet can have any number of rows.	171	The input sprite sheet can have any number of rows.
172		172
173	Returns a list of lists [[sprite bytes]], one inner list for the columns in	173	Returns a list of lists [[sprite]], one inner list for the columns in each
174	each row.	174	row.
175	"""	175	"""
176	with Image.open(input_filepath) as im:	176	# Sprite sheet's width and height must be integer multiples of the
177	# Sprite sheet's width and height must be integer multiples of the	177	# sprite's width and height.
178	# sprite's width and height.	178	assert (im.width % sprite_width == 0)
179	assert (im.width % sprite_width == 0)	179	assert (im.height % sprite_height == 0)
180	assert (im.height % sprite_height == 0)
181		180
182	num_rows = im.height // sprite_height	181	num_rows = im.height // sprite_height
183		182
184	rows = []	183	rows = []
185	for row in range(num_rows):	184	for row in range(num_rows):
186	# Get the number of columns.	185	# Get the number of columns.
187	upper = row * sprite_height	186	upper = row * sprite_height
188	lower = (row + 1) * sprite_height	187	lower = (row + 1) * sprite_height
189	whole_row = im.crop((0, upper, im.width, lower))	188	whole_row = im.crop((0, upper, im.width, lower))
190	num_cols = get_num_cols(whole_row, sprite_width)	189	num_cols = get_num_cols(whole_row, sprite_width)
191	assert (num_cols > 0)	190	assert (num_cols > 0)
192		191
193	# Crop the row into N columns.	192	# Crop the row into N columns.
194	cols = []	193	cols = []
195	for i in range(num_cols):	194	for i in range(num_cols):
196	left = i * sprite_width	195	left = i * sprite_width
197	right = (i + 1) * sprite_width	196	right = (i + 1) * sprite_width
198	sprite = im.crop((left, upper, right, lower))	197	sprite = im.crop((left, upper, right, lower))
199	cols.append(sprite)	198	cols.append(sprite)
200		199
201	sprite_bytes = [sprite.convert('RGBA').tobytes() for sprite in cols]	200	assert (len(cols) == num_cols)
202	assert (len(sprite_bytes) == num_cols)	201	rows.append(cols)
203	rows.append(sprite_bytes)	202
204		203	return rows
205	return rows	204
		205
		206	def make_image_from_rows(rows, sprite_width, sprite_height):
		207	"""Concatenate the rows into a single RGBA image."""
		208	im_width = sprite_width * max(len(row) for row in rows)
		209	im_height = len(rows) * sprite_height
		210	im = Image.new('RGBA', (im_width, im_height))
		211	y = 0
		212	for row in rows:
		213	x = 0
		214	for sprite in row:
		215	im.paste(sprite.convert('RGBA'), (x, y))
		216	x += sprite_width
		217	y += sprite_height
		218	return im
206		219
207		220
208	def convert_sprite_sheet(input_file_paths, sprite_width, sprite_height,	221	def convert_sprite_sheet(input_file_paths, sprite_width, sprite_height,
@@ -217,25 +230,65 @@ def convert_sprite_sheet(input_file_paths, sprite_width, sprite_height,
217	sprite sheets.	230	sprite sheets.
218	"""	231	"""
219	rows = []	232	rows = []
		233	for input_filepath in input_file_paths:
		234	with Image.open(input_filepath) as sprite_sheet:
		235	rows.extend(
		236	get_sprite_sheet_rows(sprite_sheet, sprite_width,
		237	sprite_height))
220		238
221	for sprite_sheet in input_file_paths:	239	im = make_image_from_rows(rows, sprite_width, sprite_height)
222	rows.extend(	240	im = im.convert(mode="P", palette=Image.ADAPTIVE, colors=256)
223	get_sprite_sheet_rows(sprite_sheet, sprite_width, sprite_height))	241
		242	# The sprite data in 'rows' is no longer needed.
		243	# Keep just the number of columns per row.
		244	rows = [len(row) for row in rows]
224		245
225	with open(output_filepath, 'bw') as output:	246	with open(output_filepath, 'bw') as output:
226	output.write(ctypes.c_uint16(sprite_width))	247	output.write(ctypes.c_uint16(sprite_width))
227	output.write(ctypes.c_uint16(sprite_height))	248	output.write(ctypes.c_uint16(sprite_height))
228	output.write(ctypes.c_uint16(len(rows)))	249	output.write(ctypes.c_uint16(len(rows)))
229		250
		251	# Write palette.
		252	# getpalette() returns 256 colors, but the palette might use less than
		253	# that. getcolors() returns the number of unique colors.
		254	# getpalette() also returns a flattened list, which is why we must *4.
		255	num_colours = len(im.getcolors())
		256	colours = im.getpalette(rawmode="RGBA")[:4 * num_colours]
		257	palette = []
		258	for i in range(0, 4 * num_colours, 4):
		259	palette.append((colours[i], colours[i + 1], colours[i + 2],
		260	colours[i + 3]))
		261
		262	output.write(ctypes.c_uint16(len(palette)))
		263	output.write(bytearray(colours))
		264
230	print(f"Sprite width: {sprite_width}")	265	print(f"Sprite width: {sprite_width}")
231	print(f"Sprite height: {sprite_height}")	266	print(f"Sprite height: {sprite_height}")
232	print(f"Rows: {len(rows)}")	267	print(f"Rows: {len(rows)}")
		268	print(f"Colours: {len(palette)}")
		269
		270	# print("Palette")
		271	# for i, colour in enumerate(palette):
		272	# print(f"{i}: {colour}")
233		273
234	for sprites in rows:	274	for row, num_columns in enumerate(rows):
235	output.write(ctypes.c_uint16(len(sprites)))	275	output.write(ctypes.c_uint16(num_columns))
236	for sprite_bytes in sprites:	276	upper = row * sprite_height
		277	lower = (row + 1) * sprite_height
		278	for col in range(num_columns):
		279	left = col * sprite_width
		280	right = (col + 1) * sprite_width
		281	sprite = im.crop((left, upper, right, lower))
		282	sprite_bytes = sprite.tobytes()
		283
		284	assert (len(sprite_bytes) == sprite_width * sprite_height)
237	output.write(sprite_bytes)	285	output.write(sprite_bytes)
238		286
		287	# if (row == 0) and (col == 0):
		288	# print(f"Sprite: ({len(sprite_bytes)})")
		289	# print(list(sprite_bytes))
		290	# sprite.save("out.png")
		291
239		292
240	def main():	293	def main():
241	parser = argparse.ArgumentParser()	294	parser = argparse.ArgumentParser()