1 files changed, 46 insertions, 19 deletions
diff --git a/gfx-iso/src/isogfx.c b/gfx-iso/src/isogfx.c
index 9ba1bec..4568375 100644
--- a/gfx-iso/src/isogfx.c
+++ b/gfx-iso/src/isogfx.c
@@ -100,26 +100,49 @@ static inline const Ts_Tile* ts_tileset_get_next_tile(
 /// The pixels of the row follow a "sprite-major" order. It contains the
 /// 'sprite_width * sprite_height' pixels for the first column/sprite, then the
 /// second column/sprite, etc.
+///
+/// Pixels are 8-bit indices into the sprite sheet's colour palette.
 typedef struct Ss_Row {
  uint16_t num_cols;  /// Number of columns in this row.
-  Pixel    pixels[1]; /// Count: num_cols * sprite_width * sprite_height.
+  uint8_t  pixels[1]; /// Count: num_cols * sprite_width * sprite_height.
 } Ss_Row;
+typedef struct Ss_Palette {
+  uint16_t num_colours;
+  Pixel    colours[1]; /// Count: num_colors.
+} Ss_Palette;
 /// Sprite sheet top-level data definition.
 ///
 /// Sprite width and height are assumed constant throughout the sprite sheet.
 typedef struct Ss_SpriteSheet {
-  uint16_t sprite_width;  /// Sprite width in pixels.
+  uint16_t   sprite_width;  /// Sprite width in pixels.
-  uint16_t sprite_height; /// Sprite height in pixels.
+  uint16_t   sprite_height; /// Sprite height in pixels.
-  uint16_t num_rows;
+  uint16_t   num_rows;
-  Ss_Row   rows[1]; /// Count: num_rows.
+  Ss_Palette palette; /// Variable size.
+  Ss_Row     rows[1]; /// Count: num_rows. Variable offset.
 } Ss_SpriteSheet;
-const Ss_Row* get_sprite_sheet_row(const Ss_SpriteSheet* sheet, int row) {
+static inline const Ss_Row* get_sprite_sheet_row(
+    const Ss_SpriteSheet* sheet, int row) {
  assert(sheet);
  assert(row >= 0);
  assert(row < sheet->num_rows);
-  return &sheet->rows[row];
+  // Skip over the palette.
+  const Ss_Row* rows =
+      (const Ss_Row*)(&sheet->palette.colours[0] + sheet->palette.num_colours);
+  return &rows[row];
+}
+static inline const uint8_t* get_sprite_sheet_sprite(
+    const Ss_SpriteSheet* sheet, const Ss_Row* row, int col) {
+  assert(sheet);
+  assert(row);
+  assert(col >= 0);
+  assert(col < row->num_cols);
+  const int sprite_offset = col * sheet->sprite_width * sheet->sprite_height;
+  const uint8_t* sprite   = &row->pixels[sprite_offset];
+  return sprite;
 }
 // -----------------------------------------------------------------------------
@@ -732,11 +755,19 @@ static Pixel alpha_blend(Pixel src, Pixel dst) {
 ///
 /// The rectangle's pixels are assumed to be arranged in a linear, row-major
 /// fashion.
+///
+/// If indices are given, then the image is assumed to be colour-paletted, where
+/// 'pixels' is the palette and 'indices' the pixel indices. Otherwise, the
+/// image is assumed to be in plain RGBA format.
 static void draw_rect(
    IsoGfx* iso, ivec2 origin, int rect_width, int rect_height,
-    const Pixel* pixels) {
+    const Pixel* pixels, const uint8_t* indices) {
  assert(iso);
+#define rect_pixel(x, y)                           \
+  (indices ? pixels[indices[py * rect_width + px]] \
+           : pixels[py * rect_width + px])
  // Rect can exceed screen bounds, so we must clip it.
 #define max(a, b) (a > b ? a : b)
  const int py_offset = max(0, rect_height - origin.y);
@@ -748,7 +779,7 @@ static void draw_rect(
    const int sy = origin.y + py - py_offset;
    for (int px = 0; (px < rect_width) && (origin.x + px < iso->screen_width);
         ++px) {
-      const Pixel colour = pixels[py * rect_width + px];
+      const Pixel colour = rect_pixel(px, py);
      if (colour.a > 0) {
        const int   sx              = origin.x + px;
        const Pixel dst             = screen_xy(iso, sx, sy);
@@ -767,7 +798,7 @@ static void draw_tile(IsoGfx* iso, ivec2 origin, Tile tile) {
  const Pixel* pixels = tile_xy_const_ref(iso, tile_data, 0, 0);
-  draw_rect(iso, origin, tile_data->width, tile_data->height, pixels);
+  draw_rect(iso, origin, tile_data->width, tile_data->height, pixels, 0);
 }
 static void draw(IsoGfx* iso) {
@@ -807,15 +838,11 @@ static void draw_sprite(
  assert(sprite->animation < sheet->num_rows);
  assert(sprite->frame >= 0);
-  const SpriteSheetRow* ss_row = &sheet->rows[sprite->animation];
+  const SpriteSheetRow* row = get_sprite_sheet_row(sheet, sprite->animation);
-  assert(sprite->frame < ss_row->num_cols);
+  const uint8_t* frame = get_sprite_sheet_sprite(sheet, row, sprite->frame);
+  draw_rect(
-  const int sprite_offset =
+      iso, origin, sheet->sprite_width, sheet->sprite_height,
-      sprite->frame * sheet->sprite_width * sheet->sprite_height;
+      sheet->palette.colours, frame);
-  const Pixel* frame = &ss_row->pixels[sprite_offset];
-  draw_rect(iso, origin, sheet->sprite_width, sheet->sprite_height, frame);
 }
 static void draw_sprites(IsoGfx* iso) {

diff --git a/gfx-iso/src/isogfx.c b/gfx-iso/src/isogfx.c index 9ba1bec..4568375 100644 --- a/gfx-iso/src/isogfx.c +++ b/gfx-iso/src/isogfx.c
@@ -100,26 +100,49 @@ static inline const Ts_Tile* ts_tileset_get_next_tile(
100	/// The pixels of the row follow a "sprite-major" order. It contains the	100	/// The pixels of the row follow a "sprite-major" order. It contains the
101	/// 'sprite_width * sprite_height' pixels for the first column/sprite, then the	101	/// 'sprite_width * sprite_height' pixels for the first column/sprite, then the
102	/// second column/sprite, etc.	102	/// second column/sprite, etc.
		103	///
		104	/// Pixels are 8-bit indices into the sprite sheet's colour palette.
103	typedef struct Ss_Row {	105	typedef struct Ss_Row {
104	uint16_t num_cols; /// Number of columns in this row.	106	uint16_t num_cols; /// Number of columns in this row.
105	Pixel pixels[1]; /// Count: num_cols * sprite_width * sprite_height.	107	uint8_t pixels[1]; /// Count: num_cols * sprite_width * sprite_height.
106	} Ss_Row;	108	} Ss_Row;
107		109
		110	typedef struct Ss_Palette {
		111	uint16_t num_colours;
		112	Pixel colours[1]; /// Count: num_colors.
		113	} Ss_Palette;
		114
108	/// Sprite sheet top-level data definition.	115	/// Sprite sheet top-level data definition.
109	///	116	///
110	/// Sprite width and height are assumed constant throughout the sprite sheet.	117	/// Sprite width and height are assumed constant throughout the sprite sheet.
111	typedef struct Ss_SpriteSheet {	118	typedef struct Ss_SpriteSheet {
112	uint16_t sprite_width; /// Sprite width in pixels.	119	uint16_t sprite_width; /// Sprite width in pixels.
113	uint16_t sprite_height; /// Sprite height in pixels.	120	uint16_t sprite_height; /// Sprite height in pixels.
114	uint16_t num_rows;	121	uint16_t num_rows;
115	Ss_Row rows[1]; /// Count: num_rows.	122	Ss_Palette palette; /// Variable size.
		123	Ss_Row rows[1]; /// Count: num_rows. Variable offset.
116	} Ss_SpriteSheet;	124	} Ss_SpriteSheet;
117		125
118	const Ss_Row* get_sprite_sheet_row(const Ss_SpriteSheet* sheet, int row) {	126	static inline const Ss_Row* get_sprite_sheet_row(
		127	const Ss_SpriteSheet* sheet, int row) {
119	assert(sheet);	128	assert(sheet);
120	assert(row >= 0);	129	assert(row >= 0);
121	assert(row < sheet->num_rows);	130	assert(row < sheet->num_rows);
122	return &sheet->rows[row];	131	// Skip over the palette.
		132	const Ss_Row* rows =
		133	(const Ss_Row*)(&sheet->palette.colours[0] + sheet->palette.num_colours);
		134	return &rows[row];
		135	}
		136
		137	static inline const uint8_t* get_sprite_sheet_sprite(
		138	const Ss_SpriteSheet* sheet, const Ss_Row* row, int col) {
		139	assert(sheet);
		140	assert(row);
		141	assert(col >= 0);
		142	assert(col < row->num_cols);
		143	const int sprite_offset = col * sheet->sprite_width * sheet->sprite_height;
		144	const uint8_t* sprite = &row->pixels[sprite_offset];
		145	return sprite;
123	}	146	}
124		147
125	// -----------------------------------------------------------------------------	148	// -----------------------------------------------------------------------------
@@ -732,11 +755,19 @@ static Pixel alpha_blend(Pixel src, Pixel dst) {
732	///	755	///
733	/// The rectangle's pixels are assumed to be arranged in a linear, row-major	756	/// The rectangle's pixels are assumed to be arranged in a linear, row-major
734	/// fashion.	757	/// fashion.
		758	///
		759	/// If indices are given, then the image is assumed to be colour-paletted, where
		760	/// 'pixels' is the palette and 'indices' the pixel indices. Otherwise, the
		761	/// image is assumed to be in plain RGBA format.
735	static void draw_rect(	762	static void draw_rect(
736	IsoGfx* iso, ivec2 origin, int rect_width, int rect_height,	763	IsoGfx* iso, ivec2 origin, int rect_width, int rect_height,
737	const Pixel* pixels) {	764	const Pixel* pixels, const uint8_t* indices) {
738	assert(iso);	765	assert(iso);
739		766
		767	#define rect_pixel(x, y) \
		768	(indices ? pixels[indices[py * rect_width + px]] \
		769	: pixels[py * rect_width + px])
		770
740	// Rect can exceed screen bounds, so we must clip it.	771	// Rect can exceed screen bounds, so we must clip it.
741	#define max(a, b) (a > b ? a : b)	772	#define max(a, b) (a > b ? a : b)
742	const int py_offset = max(0, rect_height - origin.y);	773	const int py_offset = max(0, rect_height - origin.y);
@@ -748,7 +779,7 @@ static void draw_rect(
748	const int sy = origin.y + py - py_offset;	779	const int sy = origin.y + py - py_offset;
749	for (int px = 0; (px < rect_width) && (origin.x + px < iso->screen_width);	780	for (int px = 0; (px < rect_width) && (origin.x + px < iso->screen_width);
750	++px) {	781	++px) {
751	const Pixel colour = pixels[py * rect_width + px];	782	const Pixel colour = rect_pixel(px, py);
752	if (colour.a > 0) {	783	if (colour.a > 0) {
753	const int sx = origin.x + px;	784	const int sx = origin.x + px;
754	const Pixel dst = screen_xy(iso, sx, sy);	785	const Pixel dst = screen_xy(iso, sx, sy);
@@ -767,7 +798,7 @@ static void draw_tile(IsoGfx* iso, ivec2 origin, Tile tile) {
767		798
768	const Pixel* pixels = tile_xy_const_ref(iso, tile_data, 0, 0);	799	const Pixel* pixels = tile_xy_const_ref(iso, tile_data, 0, 0);
769		800
770	draw_rect(iso, origin, tile_data->width, tile_data->height, pixels);	801	draw_rect(iso, origin, tile_data->width, tile_data->height, pixels, 0);
771	}	802	}
772		803
773	static void draw(IsoGfx* iso) {	804	static void draw(IsoGfx* iso) {
@@ -807,15 +838,11 @@ static void draw_sprite(
807	assert(sprite->animation < sheet->num_rows);	838	assert(sprite->animation < sheet->num_rows);
808	assert(sprite->frame >= 0);	839	assert(sprite->frame >= 0);
809		840
810	const SpriteSheetRow* ss_row = &sheet->rows[sprite->animation];	841	const SpriteSheetRow* row = get_sprite_sheet_row(sheet, sprite->animation);
811	assert(sprite->frame < ss_row->num_cols);	842	const uint8_t* frame = get_sprite_sheet_sprite(sheet, row, sprite->frame);
812		843	draw_rect(
813	const int sprite_offset =	844	iso, origin, sheet->sprite_width, sheet->sprite_height,
814	sprite->frame * sheet->sprite_width * sheet->sprite_height;	845	sheet->palette.colours, frame);
815
816	const Pixel* frame = &ss_row->pixels[sprite_offset];
817
818	draw_rect(iso, origin, sheet->sprite_width, sheet->sprite_height, frame);
819	}	846	}
820		847
821	static void draw_sprites(IsoGfx* iso) {	848	static void draw_sprites(IsoGfx* iso) {