Initial renderer.

1 files changed, 22 insertions, 15 deletions

diff --git a/gfx-iso/src/isogfx.c b/gfx-iso/src/isogfx.c
index 27981f9..b38efe7 100644
--- a/gfx-iso/src/isogfx.c
+++ b/gfx-iso/src/isogfx.c
@@ -52,14 +52,22 @@ static inline ivec2 iso2cart(ivec2 iso, int s, int t, int w) {
       .x = (iso.x - iso.y) * (s / 2) + (w / 2), .y = (iso.x + iso.y) * (t / 2)};
 }
 
+// Method 1.
+// static inline vec2 cart2iso(vec2 cart, int s, int t, int w) {
+//  const double x    = cart.x - (double)(w / 2);
+//  const double xiso = (x * t + cart.y * s) / (double)(s * t);
+//  return (vec2){
+//      .x = (int)(xiso), .y = (int)((2.0 / (double)t) * cart.y - xiso)};
+//}
+
+// Method 2.
 static inline vec2 cart2iso(vec2 cart, int s, int t, int w) {
   const double one_over_s = 1. / (double)s;
   const double one_over_t = 1. / (double)t;
   const double x          = cart.x - (double)(w / 2);
-
   return (vec2){
-      .x = (int)(one_over_s * x + one_over_t * cart.y),
-      .y = (int)(-one_over_s * x + one_over_t * cart.y)};
+      .x = (one_over_s * x + one_over_t * cart.y),
+      .y = (-one_over_s * x + one_over_t * cart.y)};
 }
 
 Pixel* tile_xy_mut(const IsoGfx* iso, TileData* tile, int x, int y) {
@@ -120,7 +128,7 @@ static inline Pixel* screen_xy_mut(IsoGfx* iso, int x, int y) {
   return &iso->screen[y * iso->screen_width + x];
 }
 
-static void draw_tile(IsoGfx* iso, ivec2 so, Tile tile) {
+static void draw_tile(IsoGfx* iso, ivec2 origin, Tile tile) {
   assert(iso);
 
   const TileData* data = mempool_get_block(&iso->tiles, tile);
@@ -129,8 +137,8 @@ static void draw_tile(IsoGfx* iso, ivec2 so, Tile tile) {
   for (int py = 0; py < iso->tile_height; ++py) {
     for (int px = 0; px < iso->tile_width; ++px) {
       const Pixel colour = tile_xy(iso, data, px, py);
-      const int   sx     = so.x + px;
-      const int   sy     = so.y + py;
+      const int   sx     = origin.x + px;
+      const int   sy     = origin.y + py;
       if ((sx >= 0) && (sy >= 0) && (sx < iso->screen_width) &&
           (sy < iso->screen_height)) {
         const uint8_t mask = iso->tile_mask[py * iso->tile_width + px];
@@ -154,8 +162,9 @@ static void draw(IsoGfx* iso) {
   const ivec2 x = {.x = iso->tile_width / 2, .y = iso->tile_height / 2};
   const ivec2 y = {.x = -iso->tile_width / 2, .y = iso->tile_height / 2};
 
-  // TODO: Since the world will generally be larger than the screen, it
-  // would be best to walk in screen space and fetch the tile.
+  // TODO: Culling.
+  // Ex: map the screen corners to tile space to cull.
+  // Ex: walk in screen space and fetch the tile.
   // The tile-centric approach might be more cache-friendly, however, since the
   // screen-centric approach would juggle multiple tiles throughout the scan.
   for (int ty = 0; ty < iso->world_height; ++ty) {
@@ -312,15 +321,13 @@ void isogfx_pick_tile(
       (vec2){.x = xcart, .y = ycart}, iso->tile_width, iso->tile_height,
       iso->screen_width);
 
-  const int x = (int)xy_iso.x;
-  const int y = (int)xy_iso.y;
-
-  if ((0 <= x) && (x < iso->world_width) && (0 <= y) &&
-      (y < iso->world_height)) {
-    *xiso = x;
-    *yiso = y;
+  if ((0 <= xy_iso.x) && (xy_iso.x < iso->world_width) && (0 <= xy_iso.y) &&
+      (xy_iso.y < iso->world_height)) {
+    *xiso = (int)xy_iso.x;
+    *yiso = (int)xy_iso.y;
   } else {
     *xiso = -1;
+    *yiso = -1;
   }
 }