Rename isogfx -> gfx2d

6 files changed, 303 insertions, 301 deletions

diff --git a/demos/checkerboard/checkerboard.c b/demos/checkerboard/checkerboard.c
index 4f43526..467da61 100644
--- a/demos/checkerboard/checkerboard.c
+++ b/demos/checkerboard/checkerboard.c
@@ -47,21 +47,21 @@ typedef enum Colour {
 } Colour;
 
 typedef struct GfxAppState {
-  IsoBackend* backend;
-  IsoGfx*     iso;
-  Tile        red;
-  int         xpick;
-  int         ypick;
+  Gfx2dBackend* backend;
+  Gfx2d*        gfx;
+  Tile          red;
+  int           xpick;
+  int           ypick;
 } GfxAppState;
 
-static void make_checkerboard(IsoGfx* iso, Tile black, Tile white) {
+static void make_checkerboard(Gfx2d* iso, Tile black, Tile white) {
   assert(iso);
-  for (int y = 0; y < isogfx_world_height(iso); ++y) {
-    for (int x = 0; x < isogfx_world_width(iso); ++x) {
+  for (int y = 0; y < gfx2d_world_height(iso); ++y) {
+    for (int x = 0; x < gfx2d_world_width(iso); ++x) {
       const int  odd_col = x & 1;
       const int  odd_row = y & 1;
       const Tile value   = (odd_row ^ odd_col) == 0 ? black : white;
-      isogfx_set_tile(iso, x, y, value);
+      gfx2d_set_tile(iso, x, y, value);
     }
   }
 }
@@ -72,28 +72,28 @@ static bool init(GfxApp* app, GfxAppState* state, int argc, const char** argv) {
   (void)argc;
   (void)argv;
 
-  if (!((state->iso =
-             isogfx_new(&(IsoGfxDesc){.memory        = MEMORY,
-                                      .memory_size   = MEMORY_SIZE,
-                                      .screen_width  = SCREEN_WIDTH,
-                                      .screen_height = SCREEN_HEIGHT})))) {
+  if (!((state->gfx =
+             gfx2d_new(&(Gfx2dDesc){.memory        = MEMORY,
+                                    .memory_size   = MEMORY_SIZE,
+                                    .screen_width  = SCREEN_WIDTH,
+                                    .screen_height = SCREEN_HEIGHT})))) {
     return false;
   }
-  IsoGfx* iso = state->iso;
+  Gfx2d* iso = state->gfx;
 
-  isogfx_make_map(
+  gfx2d_make_map(
       iso, &(MapDesc){.tile_width   = TILE_WIDTH,
                       .tile_height  = TILE_HEIGHT,
                       .world_width  = WORLD_WIDTH,
                       .world_height = WORLD_HEIGHT,
                       .num_tiles    = NUM_TILES});
 
-  const Tile black = isogfx_make_tile(iso, &tile_set[Black]);
-  const Tile white = isogfx_make_tile(iso, &tile_set[White]);
-  state->red       = isogfx_make_tile(iso, &tile_set[Red]);
+  const Tile black = gfx2d_make_tile(iso, &tile_set[Black]);
+  const Tile white = gfx2d_make_tile(iso, &tile_set[White]);
+  state->red       = gfx2d_make_tile(iso, &tile_set[Red]);
   make_checkerboard(iso, black, white);
 
-  if (!((state->backend = iso_backend_init(iso)))) {
+  if (!((state->backend = gfx2d_backend_init(iso)))) {
     return false;
   }
 
@@ -104,8 +104,8 @@ static void shutdown(GfxApp* app, GfxAppState* state) {
   assert(app);
   assert(state);
 
-  iso_backend_shutdown(&state->backend);
-  isogfx_del(&state->iso);
+  gfx2d_backend_shutdown(&state->backend);
+  gfx2d_del(&state->gfx);
 }
 
 static void update(GfxApp* app, GfxAppState* state, double t, double dt) {
@@ -113,19 +113,19 @@ static void update(GfxApp* app, GfxAppState* state, double t, double dt) {
   assert(state);
   (void)dt;
 
-  IsoGfx* iso = state->iso;
+  Gfx2d* iso = state->gfx;
 
-  isogfx_update(iso, t);
+  gfx2d_update(iso, t);
 
   // Get mouse position in window coordinates.
   double mouse_x, mouse_y;
   gfx_app_get_mouse_position(app, &mouse_x, &mouse_y);
 
   // Map from window coordinates to virtual screen coordinates.
-  iso_backend_get_mouse_position(
+  gfx2d_backend_get_mouse_position(
       state->backend, mouse_x, mouse_y, &mouse_x, &mouse_y);
 
-  isogfx_pick_tile(iso, mouse_x, mouse_y, &state->xpick, &state->ypick);
+  gfx2d_pick_tile(iso, mouse_x, mouse_y, &state->xpick, &state->ypick);
 
   printf("Picked tile: (%d, %d)\n", state->xpick, state->ypick);
 }
@@ -134,22 +134,22 @@ static void render(const GfxApp* app, GfxAppState* state) {
   assert(app);
   assert(state);
 
-  IsoGfx* iso = state->iso;
+  Gfx2d* iso = state->gfx;
 
-  isogfx_render(iso);
+  gfx2d_render(iso);
 
   if ((state->xpick != -1) && (state->ypick != -1)) {
-    isogfx_draw_tile(iso, state->xpick, state->ypick, state->red);
+    gfx2d_draw_tile(iso, state->xpick, state->ypick, state->red);
   }
 
-  iso_backend_render(state->backend, iso);
+  gfx2d_backend_render(state->backend, iso);
 }
 
 static void resize(GfxApp* app, GfxAppState* state, int width, int height) {
   assert(app);
   assert(state);
 
-  iso_backend_resize_window(state->backend, state->iso, width, height);
+  gfx2d_backend_resize_window(state->backend, state->gfx, width, height);
 }
 
 int main(int argc, const char** argv) {
diff --git a/demos/isomap/isomap.c b/demos/isomap/isomap.c
index bca27f6..471ef57 100644
--- a/demos/isomap/isomap.c
+++ b/demos/isomap/isomap.c
@@ -22,13 +22,13 @@ static const R CAMERA_SPEED = 800;
 uint8_t MEMORY[MEMORY_SIZE];
 
 typedef struct GfxAppState {
-  IsoBackend* backend;
-  IsoGfx*     iso;
-  int         xpick;
-  int         ypick;
-  vec2        camera;
-  SpriteSheet stag_sheet;
-  Sprite      stag;
+  Gfx2dBackend* backend;
+  Gfx2d*        gfx;
+  int           xpick;
+  int           ypick;
+  vec2          camera;
+  SpriteSheet   stag_sheet;
+  Sprite        stag;
 } GfxAppState;
 
 static bool init(GfxApp* app, GfxAppState* state, int argc, const char** argv) {
@@ -37,31 +37,31 @@ static bool init(GfxApp* app, GfxAppState* state, int argc, const char** argv) {
   (void)argc;
   (void)argv;
 
-  if (!((state->iso =
-             isogfx_new(&(IsoGfxDesc){.memory        = MEMORY,
-                                      .memory_size   = MEMORY_SIZE,
-                                      .screen_width  = SCREEN_WIDTH,
-                                      .screen_height = SCREEN_HEIGHT})))) {
+  if (!((state->gfx =
+             gfx2d_new(&(Gfx2dDesc){.memory        = MEMORY,
+                                    .memory_size   = MEMORY_SIZE,
+                                    .screen_width  = SCREEN_WIDTH,
+                                    .screen_height = SCREEN_HEIGHT})))) {
     return false;
   }
-  IsoGfx* iso = state->iso;
+  Gfx2d* iso = state->gfx;
 
-  if (!isogfx_load_map(
+  if (!gfx2d_load_map(
           iso, "/home/jeanne/Nextcloud/assets/tilemaps/scrabling1.tm")) {
     return false;
   }
 
-  if (!((state->stag_sheet = isogfx_load_sprite_sheet(
+  if (!((state->stag_sheet = gfx2d_load_sprite_sheet(
              iso,
              "/home/jeanne/Nextcloud/assets/tilesets/scrabling/critters/stag/"
              "stag.ss")))) {
     return false;
   }
 
-  state->stag = isogfx_make_sprite(iso, state->stag_sheet);
-  isogfx_set_sprite_position(iso, state->stag, 0, 0);
+  state->stag = gfx2d_make_sprite(iso, state->stag_sheet);
+  gfx2d_set_sprite_position(iso, state->stag, 0, 0);
 
-  if (!((state->backend = iso_backend_init(iso)))) {
+  if (!((state->backend = gfx2d_backend_init(iso)))) {
     return false;
   }
 
@@ -101,25 +101,25 @@ static void update(GfxApp* app, GfxAppState* state, double t, double dt) {
 
   state->camera = vec2_add(state->camera, get_camera_movement(app, (R)dt));
 
-  IsoGfx* iso = state->iso;
-  isogfx_set_camera(iso, (int)state->camera.x, (int)state->camera.y);
-  isogfx_update(iso, t);
+  Gfx2d* iso = state->gfx;
+  gfx2d_set_camera(iso, (int)state->camera.x, (int)state->camera.y);
+  gfx2d_update(iso, t);
 }
 
 static void render(const GfxApp* app, GfxAppState* state) {
   assert(app);
   assert(state);
 
-  IsoGfx* iso = state->iso;
-  isogfx_render(iso);
-  iso_backend_render(state->backend, iso);
+  Gfx2d* iso = state->gfx;
+  gfx2d_render(iso);
+  gfx2d_backend_render(state->backend, iso);
 }
 
 static void resize(GfxApp* app, GfxAppState* state, int width, int height) {
   assert(app);
   assert(state);
 
-  iso_backend_resize_window(state->backend, state->iso, width, height);
+  gfx2d_backend_resize_window(state->backend, state->gfx, width, height);
 }
 
 int main(int argc, const char** argv) {
diff --git a/include/isogfx/backend.h b/include/isogfx/backend.h
index 76ee13d..86afed5 100644
--- a/include/isogfx/backend.h
+++ b/include/isogfx/backend.h
@@ -2,28 +2,29 @@
 
 #include <stdbool.h>
 
-typedef struct Gfx    Gfx;
-typedef struct IsoGfx IsoGfx;
+typedef struct Gfx   Gfx;
+typedef struct Gfx2d Gfx2d;
 
-typedef struct IsoBackend IsoBackend;
+typedef struct Gfx2dBackend Gfx2dBackend;
 
 /// Initialize the backend.
-IsoBackend* iso_backend_init(const IsoGfx*);
+Gfx2dBackend* gfx2d_backend_init(const Gfx2d*);
 
 /// Shut down the backend.
-void iso_backend_shutdown(IsoBackend**);
+void gfx2d_backend_shutdown(Gfx2dBackend**);
 
 /// Notify the backend of a window resize event.
-/// This allows the backend to determine how to position and scale the iso
+/// This allows the backend to determine how to position and scale the gfx
 /// screen buffer on the graphics window.
-void iso_backend_resize_window(
-    IsoBackend*, const IsoGfx*, int width, int height);
+void gfx2d_backend_resize_window(
+    Gfx2dBackend*, const Gfx2d*, int width, int height);
 
-/// Render the iso screen to the graphics window.
-void iso_backend_render(const IsoBackend*, const IsoGfx*);
+/// Render the gfx screen to the graphics window.
+void gfx2d_backend_render(const Gfx2dBackend*, const Gfx2d*);
 
-/// Map window coordinates to iso space coordinates.
+/// Map window coordinates to gfx space coordinates.
 /// This takes into account any possible resizing done by the backend in
-/// response to calls to iso_backend_resize_window().
-bool iso_backend_get_mouse_position(
-    const IsoBackend*, double window_x, double window_y, double* x, double* y);
+/// response to calls to gfx2d_backend_resize_window().
+bool gfx2d_backend_get_mouse_position(
+    const Gfx2dBackend*, double window_x, double window_y, double* x,
+    double* y);
diff --git a/include/isogfx/gfx2d.h b/include/isogfx/gfx2d.h
index 323b389..59566f3 100644
--- a/include/isogfx/gfx2d.h
+++ b/include/isogfx/gfx2d.h
@@ -8,7 +8,7 @@
 #include <stddef.h>
 #include <stdint.h>
 
-typedef struct IsoGfx IsoGfx;
+typedef struct Gfx2d Gfx2d;
 
 /// Sprite sheet handle.
 typedef uintptr_t SpriteSheet;
@@ -50,43 +50,43 @@ typedef struct IsoGfxDesc {
   size_t memory_size;   // Size of memory block in bytes.
   int    screen_width;  // Screen width in pixels.
   int    screen_height; // Screen height in pixels.
-} IsoGfxDesc;
+} Gfx2dDesc;
 
 /// Create a new isometric graphics engine.
-IsoGfx* isogfx_new(const IsoGfxDesc*);
+Gfx2d* gfx2d_new(const Gfx2dDesc*);
 
 /// Destroy the isometric graphics engine.
-void isogfx_del(IsoGfx**);
+void gfx2d_del(Gfx2d**);
 
 /// Clear all loaded worlds and sprites.
-void isogfx_clear(IsoGfx*);
+void gfx2d_clear(Gfx2d*);
 
 /// Create an empty map.
-void isogfx_make_map(IsoGfx*, const MapDesc*);
+void gfx2d_make_map(Gfx2d*, const MapDesc*);
 
 /// Load a tile map (.TM) file.
-bool isogfx_load_map(IsoGfx*, const char* filepath);
+bool gfx2d_load_map(Gfx2d*, const char* filepath);
 
 /// Return the world's width.
-int isogfx_world_width(const IsoGfx*);
+int gfx2d_world_width(const Gfx2d*);
 
 /// Return the world's height.
-int isogfx_world_height(const IsoGfx*);
+int gfx2d_world_height(const Gfx2d*);
 
 /// Create a new tile.
-Tile isogfx_make_tile(IsoGfx*, const TileDesc*);
+Tile gfx2d_make_tile(Gfx2d*, const TileDesc*);
 
 /// Set the tile at position (x,y).
-void isogfx_set_tile(IsoGfx*, int x, int y, Tile);
+void gfx2d_set_tile(Gfx2d*, int x, int y, Tile);
 
 /// Set the tiles in positions in the range (x0,y0) - (x1,y1).
-void isogfx_set_tiles(IsoGfx*, int x0, int y0, int x1, int y1, Tile);
+void gfx2d_set_tiles(Gfx2d*, int x0, int y0, int x1, int y1, Tile);
 
 /// Load a sprite sheet (.SS) file.
-SpriteSheet isogfx_load_sprite_sheet(IsoGfx*, const char* filepath);
+SpriteSheet gfx2d_load_sprite_sheet(Gfx2d*, const char* filepath);
 
 /// Create an animated sprite.
-Sprite isogfx_make_sprite(IsoGfx*, SpriteSheet);
+Sprite gfx2d_make_sprite(Gfx2d*, SpriteSheet);
 
 // TODO: Add a function to delete a sprite. Making the caller manage and re-use
 //  sprites is a shitty API.
@@ -94,41 +94,41 @@ Sprite isogfx_make_sprite(IsoGfx*, SpriteSheet);
 //  list of sprites so that we can re-use the ones that have been "freed".
 
 /// Set the sprite's position.
-void isogfx_set_sprite_position(IsoGfx*, Sprite, int x, int y);
+void gfx2d_set_sprite_position(Gfx2d*, Sprite, int x, int y);
 
 /// Set the sprite's current animation.
-void isogfx_set_sprite_animation(IsoGfx*, Sprite, int animation);
+void gfx2d_set_sprite_animation(Gfx2d*, Sprite, int animation);
 
 /// Update the renderer.
 ///
 /// Currently, this updates the sprite animations.
-void isogfx_update(IsoGfx*, double t);
+void gfx2d_update(Gfx2d*, double t);
 
 // TODO: Do we really need to store the camera in the library? It's not used
 //  for anything other than to render, so we could remove library state and
 //  take a camera argument in render() instead.
 
 /// Set the camera.
-void isogfx_set_camera(IsoGfx*, int x, int y);
+void gfx2d_set_camera(Gfx2d*, int x, int y);
 
 /// Render the world.
-void isogfx_render(IsoGfx*);
+void gfx2d_render(Gfx2d*);
 
 /// Draw/overlay a tile at position (x,y).
 ///
 /// This function just renders a tile at position (x,y) and should be called
-/// after isogfx_render() to obtain the correct result. To set the tile at
-/// position (x,y) instead, use isogfx_set_tile().
-void isogfx_draw_tile(IsoGfx*, int x, int y, Tile);
+/// after gfx2d_render() to obtain the correct result. To set the tile at
+/// position (x,y) instead, use gfx2d_set_tile().
+void gfx2d_draw_tile(Gfx2d*, int x, int y, Tile);
 
 /// Get the virtual screen's dimensions.
-void isogfx_get_screen_size(const IsoGfx*, int* width, int* height);
+void gfx2d_get_screen_size(const Gfx2d*, int* width, int* height);
 
 /// Return a pointer to the virtual screen's colour buffer.
 ///
-/// Call after each call to isogfx_render() to retrieve the render output.
-const Pixel* isogfx_get_screen_buffer(const IsoGfx*);
+/// Call after each call to gfx2d_render() to retrieve the render output.
+const Pixel* gfx2d_get_screen_buffer(const Gfx2d*);
 
 /// Translate Cartesian to isometric coordinates.
-void isogfx_pick_tile(
-    const IsoGfx*, double xcart, double ycart, int* xiso, int* yiso);
+void gfx2d_pick_tile(
+    const Gfx2d*, double xcart, double ycart, int* xiso, int* yiso);
diff --git a/src/backend.c b/src/backend.c
index 80c5974..4bb3592 100644
--- a/src/backend.c
+++ b/src/backend.c
@@ -13,7 +13,7 @@
 #include <assert.h>
 #include <stdlib.h>
 
-typedef struct IsoBackend {
+typedef struct Gfx2dBackend {
   Gfx*  gfx;
   Mesh* quad_mesh;
   /// The screen or "iso screen" refers to the colour buffer of the iso graphics
@@ -29,12 +29,12 @@ typedef struct IsoBackend {
   int    viewport_x, viewport_y, viewport_width, viewport_height;
   double stretch; // Stretch factor from iso screen dimensions to viewport
                   // dimensions.
-} IsoBackend;
+} Gfx2dBackend;
 
-IsoBackend* iso_backend_init(const IsoGfx* iso) {
+Gfx2dBackend* gfx2d_backend_init(const Gfx2d* iso) {
   assert(iso);
 
-  IsoBackend* backend = calloc(1, sizeof(IsoBackend));
+  Gfx2dBackend* backend = calloc(1, sizeof(Gfx2dBackend));
   if (!backend) {
     return nullptr;
   }
@@ -45,7 +45,7 @@ IsoBackend* iso_backend_init(const IsoGfx* iso) {
   GfxCore* gfxcore = gfx_get_core(backend->gfx);
 
   int screen_width, screen_height;
-  isogfx_get_screen_size(iso, &screen_width, &screen_height);
+  gfx2d_get_screen_size(iso, &screen_width, &screen_height);
 
   if (!((backend->screen_texture = gfx_make_texture(
              gfxcore, &(TextureDesc){.width     = screen_width,
@@ -95,10 +95,10 @@ cleanup:
   return nullptr;
 }
 
-void iso_backend_shutdown(IsoBackend** ppApp) {
+void gfx2d_backend_shutdown(Gfx2dBackend** ppApp) {
   assert(ppApp);
 
-  IsoBackend* app = *ppApp;
+  Gfx2dBackend* app = *ppApp;
   if (!app) {
     return;
   }
@@ -106,8 +106,8 @@ void iso_backend_shutdown(IsoBackend** ppApp) {
   gfx_destroy(&app->gfx);
 }
 
-void iso_backend_resize_window(
-    IsoBackend* app, const IsoGfx* iso, int width, int height) {
+void gfx2d_backend_resize_window(
+    Gfx2dBackend* app, const Gfx2d* iso, int width, int height) {
   assert(app);
   assert(iso);
 
@@ -116,7 +116,7 @@ void iso_backend_resize_window(
 
   // Virtual screen dimensions.
   int screen_width, screen_height;
-  isogfx_get_screen_size(iso, &screen_width, &screen_height);
+  gfx2d_get_screen_size(iso, &screen_width, &screen_height);
 
   // Stretch the virtual screen onto the viewport while respecting the screen's
   // aspect ratio to prevent distortion.
@@ -135,11 +135,11 @@ void iso_backend_resize_window(
   }
 }
 
-void iso_backend_render(const IsoBackend* app, const IsoGfx* iso) {
+void gfx2d_backend_render(const Gfx2dBackend* app, const Gfx2d* iso) {
   assert(app);
   assert(iso);
 
-  const Pixel* screen = isogfx_get_screen_buffer(iso);
+  const Pixel* screen = gfx2d_get_screen_buffer(iso);
   assert(screen);
   gfx_update_texture(app->screen_texture, &(TextureDataDesc){.pixels = screen});
 
@@ -162,8 +162,8 @@ void iso_backend_render(const IsoBackend* app, const IsoGfx* iso) {
   gfx_end_frame(gfxcore);
 }
 
-bool iso_backend_get_mouse_position(
-    const IsoBackend* app, double window_x, double window_y, double* x,
+bool gfx2d_backend_get_mouse_position(
+    const Gfx2dBackend* app, double window_x, double window_y, double* x,
     double* y) {
   assert(app);
 
diff --git a/src/gfx2d.c b/src/gfx2d.c
index 698e32c..266a5f7 100644
--- a/src/gfx2d.c
+++ b/src/gfx2d.c
@@ -32,11 +32,11 @@ typedef struct vec2 {
 // Renderer state.
 // -----------------------------------------------------------------------------
 
-typedef struct CoordSystem {
+typedef struct IsoCoordSystem {
   ivec2 o; // Origin.
   ivec2 x;
   ivec2 y;
-} CoordSystem;
+} IsoCoordSystem;
 
 typedef struct Screen {
   int    width;
@@ -52,9 +52,9 @@ typedef struct SpriteInstance {
   int                    frame;     // Current frame of animation.
 } SpriteInstance;
 
-typedef struct IsoGfx {
+typedef struct Gfx2d {
   Screen          screen;
-  CoordSystem     iso_space;
+  IsoCoordSystem  iso_space;
   ivec2           camera;
   double          last_animation_time;
   Tile            next_tile; // For procedurally-generated tiles.
@@ -63,7 +63,7 @@ typedef struct IsoGfx {
   SpriteInstance* head_sprite; // Head of sprites list.
   memstack        stack;
   size_t          watermark;
-} IsoGfx;
+} Gfx2d;
 
 // -----------------------------------------------------------------------------
 // Math and world / tile / screen access.
@@ -102,7 +102,7 @@ static ivec2 map2screen(
 
 /// Create the basis for the isometric coordinate system with origin and vectors
 /// expressed in the Cartesian system.
-static CoordSystem make_iso_coord_system(
+static IsoCoordSystem make_iso_coord_system(
     const Tm_Map* const map, const Screen* const screen) {
   assert(map);
   assert(screen);
@@ -111,7 +111,7 @@ static CoordSystem make_iso_coord_system(
       .x = map->base_tile_width / 2, .y = map->base_tile_height / 2};
   const ivec2 y = {
       .x = -map->base_tile_width / 2, .y = map->base_tile_height / 2};
-  return (CoordSystem){o, x, y};
+  return (IsoCoordSystem){o, x, y};
 }
 
 /// Map isometric coordinates to Cartesian coordinates.
@@ -121,7 +121,7 @@ static CoordSystem make_iso_coord_system(
 ///
 /// Takes the camera displacement into account.
 static ivec2 iso2cart(
-    const CoordSystem iso_space, ivec2 camera, int iso_x, int iso_y) {
+    const IsoCoordSystem iso_space, ivec2 camera, int iso_x, int iso_y) {
   const ivec2 vx_offset = ivec2_scale(iso_space.x, iso_x);
   const ivec2 vy_offset = ivec2_scale(iso_space.y, iso_y);
   const ivec2 origin_world_space =
@@ -170,63 +170,63 @@ static inline Pixel* screen_xy_mut(Screen* screen, int x, int y) {
 // Renderer, world and tile management.
 // -----------------------------------------------------------------------------
 
-IsoGfx* isogfx_new(const IsoGfxDesc* desc) {
+Gfx2d* gfx2d_new(const Gfx2dDesc* desc) {
   assert(desc->screen_width > 0);
   assert(desc->screen_height > 0);
   // Part of our implementation assumes even widths and heights for precision.
   assert((desc->screen_width & 1) == 0);
   assert((desc->screen_height & 1) == 0);
 
-  IsoGfx tmp = {0};
+  Gfx2d tmp = {0};
   if (!memstack_make(&tmp.stack, desc->memory_size, desc->memory)) {
     goto cleanup;
   }
-  IsoGfx* iso =
-      memstack_alloc_aligned(&tmp.stack, sizeof(IsoGfx), alignof(IsoGfx));
-  *iso = tmp;
+  Gfx2d* gfx =
+      memstack_alloc_aligned(&tmp.stack, sizeof(Gfx2d), alignof(Gfx2d));
+  *gfx = tmp;
 
   const size_t screen_size_bytes =
       desc->screen_width * desc->screen_height * sizeof(Pixel);
   Pixel* screen =
-      memstack_alloc_aligned(&iso->stack, screen_size_bytes, alignof(Pixel));
+      memstack_alloc_aligned(&gfx->stack, screen_size_bytes, alignof(Pixel));
 
-  iso->screen = (Screen){.width  = desc->screen_width,
+  gfx->screen = (Screen){.width  = desc->screen_width,
                          .height = desc->screen_height,
                          .pixels = screen};
 
-  iso->last_animation_time = 0.0;
-  iso->watermark           = memstack_watermark(&iso->stack);
+  gfx->last_animation_time = 0.0;
+  gfx->watermark           = memstack_watermark(&gfx->stack);
 
-  return iso;
+  return gfx;
 
 cleanup:
-  isogfx_del(&iso);
+  gfx2d_del(&gfx);
   return nullptr;
 }
 
-void isogfx_clear(IsoGfx* iso) {
-  assert(iso);
-  iso->last_animation_time = 0.0;
-  iso->next_tile           = 0;
-  iso->map                 = nullptr;
-  iso->tileset             = nullptr;
-  iso->head_sprite         = nullptr;
-  // The base of the stack contains the IsoGfx and the screen buffer. Make sure
+void gfx2d_clear(Gfx2d* gfx) {
+  assert(gfx);
+  gfx->last_animation_time = 0.0;
+  gfx->next_tile           = 0;
+  gfx->map                 = nullptr;
+  gfx->tileset             = nullptr;
+  gfx->head_sprite         = nullptr;
+  // The base of the stack contains the Gfx2d and the screen buffer. Make sure
   // we don't clear them.
-  memstack_set_watermark(&iso->stack, iso->watermark);
+  memstack_set_watermark(&gfx->stack, gfx->watermark);
 }
 
-void isogfx_del(IsoGfx** ppIso) {
-  assert(ppIso);
-  IsoGfx* iso = *ppIso;
-  if (iso) {
-    memstack_del(&iso->stack);
-    *ppIso = nullptr;
+void gfx2d_del(Gfx2d** ppGfx) {
+  assert(ppGfx);
+  Gfx2d* gfx = *ppGfx;
+  if (gfx) {
+    memstack_del(&gfx->stack);
+    *ppGfx = nullptr;
   }
 }
 
-void isogfx_make_map(IsoGfx* iso, const MapDesc* desc) {
-  assert(iso);
+void gfx2d_make_map(Gfx2d* gfx, const MapDesc* desc) {
+  assert(gfx);
   assert(desc);
   assert(desc->tile_width > 0);
   assert(desc->tile_height > 0);
@@ -241,7 +241,7 @@ void isogfx_make_map(IsoGfx* iso, const MapDesc* desc) {
   assert(desc->num_tiles > 0);
 
   // Handle recreation by destroying the previous world and sprites.
-  isogfx_clear(iso);
+  gfx2d_clear(gfx);
 
   const int    world_size     = desc->world_width * desc->world_height;
   const size_t map_size_bytes = sizeof(Tm_Map) + (world_size * sizeof(Tile));
@@ -256,8 +256,8 @@ void isogfx_make_map(IsoGfx* iso, const MapDesc* desc) {
                                     (desc->num_tiles * sizeof(Ts_Tile)) +
                                     tile_data_size_bytes;
 
-  iso->map  = memstack_alloc_aligned(&iso->stack, map_size_bytes, 4);
-  *iso->map = (Tm_Map){
+  gfx->map  = memstack_alloc_aligned(&gfx->stack, map_size_bytes, 4);
+  *gfx->map = (Tm_Map){
       .world_width      = desc->world_width,
       .world_height     = desc->world_height,
       .base_tile_width  = desc->tile_width,
@@ -265,34 +265,34 @@ void isogfx_make_map(IsoGfx* iso, const MapDesc* desc) {
       .num_layers       = 1,
   };
 
-  iso->tileset  = memstack_alloc_aligned(&iso->stack, tileset_size_bytes, 4);
-  *iso->tileset = (Ts_TileSet){
+  gfx->tileset  = memstack_alloc_aligned(&gfx->stack, tileset_size_bytes, 4);
+  *gfx->tileset = (Ts_TileSet){
       .num_tiles = desc->num_tiles,
   };
 
-  iso->iso_space = make_iso_coord_system(iso->map, &iso->screen);
+  gfx->iso_space = make_iso_coord_system(gfx->map, &gfx->screen);
 }
 
-bool isogfx_load_map(IsoGfx* iso, const char* filepath) {
-  assert(iso);
+bool gfx2d_load_map(Gfx2d* gfx, const char* filepath) {
+  assert(gfx);
   assert(filepath);
 
   bool success = false;
 
   // Handle recreation by destroying the previous world and sprites.
-  isogfx_clear(iso);
+  gfx2d_clear(gfx);
 
   // Load the map.
   printf("Load tile map: %s\n", filepath);
   WITH_FILE(filepath, {
     const size_t map_size = get_file_size_f(file);
-    iso->map              = memstack_alloc_aligned(&iso->stack, map_size, 4);
-    success               = read_file_f(file, iso->map);
+    gfx->map              = memstack_alloc_aligned(&gfx->stack, map_size, 4);
+    success               = read_file_f(file, gfx->map);
   });
   if (!success) {
     goto cleanup;
   }
-  Tm_Map* const map = iso->map;
+  Tm_Map* const map = gfx->map;
 
   printf("Map orientation: %d\n", ((Tm_Flags*)&map->flags)->orientation);
 
@@ -308,39 +308,39 @@ bool isogfx_load_map(IsoGfx* iso, const char* filepath) {
   printf("Load tile set: %s\n", ts_path_cwd);
   WITH_FILE(ts_path_cwd, {
     const size_t file_size = get_file_size_f(file);
-    iso->tileset           = memstack_alloc_aligned(&iso->stack, file_size, 4);
-    success                = read_file_f(file, iso->tileset);
+    gfx->tileset           = memstack_alloc_aligned(&gfx->stack, file_size, 4);
+    success                = read_file_f(file, gfx->tileset);
   });
   if (!success) {
     // TODO: Log errors using the log library.
     goto cleanup;
   }
-  const Ts_TileSet* const tileset = iso->tileset;
+  const Ts_TileSet* const tileset = gfx->tileset;
   printf("Loaded tile set (%u tiles): %s\n", tileset->num_tiles, ts_path_cwd);
 
   // TODO: These assertions on input data should be library runtime errors.
   assert(ts_validate_tileset(tileset));
   assert(tm_validate_map(map, tileset));
 
-  iso->iso_space = make_iso_coord_system(iso->map, &iso->screen);
+  gfx->iso_space = make_iso_coord_system(gfx->map, &gfx->screen);
 
   success = true;
 
 cleanup:
   if (!success) {
-    isogfx_clear(iso);
+    gfx2d_clear(gfx);
   }
   return success;
 }
 
-int isogfx_world_width(const IsoGfx* iso) {
-  assert(iso);
-  return iso->map->world_width;
+int gfx2d_world_width(const Gfx2d* gfx) {
+  assert(gfx);
+  return gfx->map->world_width;
 }
 
-int isogfx_world_height(const IsoGfx* iso) {
-  assert(iso);
-  return iso->map->world_height;
+int gfx2d_world_height(const Gfx2d* gfx) {
+  assert(gfx);
+  return gfx->map->world_height;
 }
 
 static void make_tile_from_colour(
@@ -368,19 +368,19 @@ static void make_tile_from_colour(
   }
 }
 
-Tile isogfx_make_tile(IsoGfx* iso, const TileDesc* desc) {
-  assert(iso);
+Tile gfx2d_make_tile(Gfx2d* gfx, const TileDesc* desc) {
+  assert(gfx);
   assert(desc);
   // Client must create a world first.
-  assert(iso->map);
-  assert(iso->tileset);
+  assert(gfx->map);
+  assert(gfx->tileset);
   // Currently, procedural tiles must match the base tile size.
-  assert(desc->width == iso->map->base_tile_width);
-  assert(desc->height == iso->map->base_tile_height);
+  assert(desc->width == gfx->map->base_tile_width);
+  assert(desc->height == gfx->map->base_tile_height);
   // Cannot exceed max tiles.
-  assert(iso->next_tile < iso->tileset->num_tiles);
+  assert(gfx->next_tile < gfx->tileset->num_tiles);
 
-  const Tile tile = iso->next_tile++;
+  const Tile tile = gfx->next_tile++;
 
   const size_t tile_size_bytes = desc->width * desc->height * sizeof(Pixel);
 
@@ -389,16 +389,16 @@ Tile isogfx_make_tile(IsoGfx* iso, const TileDesc* desc) {
     assert(desc->width > 0);
     assert(desc->height > 0);
 
-    Ts_Tile* const ts_tile = ts_tileset_get_tile_mut(iso->tileset, tile);
+    Ts_Tile* const ts_tile = ts_tileset_get_tile_mut(gfx->tileset, tile);
 
     *ts_tile = (Ts_Tile){
-        .width  = iso->map->base_tile_width,
-        .height = iso->map->base_tile_height,
+        .width  = gfx->map->base_tile_width,
+        .height = gfx->map->base_tile_height,
         .pixels = tile * tile_size_bytes,
     };
 
     Pixel* const tile_pixels =
-        ts_tileset_get_tile_pixels_mut(iso->tileset, tile);
+        ts_tileset_get_tile_pixels_mut(gfx->tileset, tile);
     make_tile_from_colour(desc->colour, ts_tile, tile_pixels);
     break;
   }
@@ -416,31 +416,31 @@ Tile isogfx_make_tile(IsoGfx* iso, const TileDesc* desc) {
   return tile;
 }
 
-void isogfx_set_tile(IsoGfx* iso, int x, int y, Tile tile) {
-  assert(iso);
+void gfx2d_set_tile(Gfx2d* gfx, int x, int y, Tile tile) {
+  assert(gfx);
 
-  Tm_Layer* const layer    = tm_map_get_layer_mut(iso->map, 0);
-  Tile*           map_tile = tm_layer_get_tile_mut(iso->map, layer, x, y);
+  Tm_Layer* const layer    = tm_map_get_layer_mut(gfx->map, 0);
+  Tile*           map_tile = tm_layer_get_tile_mut(gfx->map, layer, x, y);
 
   *map_tile = tile;
 }
 
-void isogfx_set_tiles(IsoGfx* iso, int x0, int y0, int x1, int y1, Tile tile) {
-  assert(iso);
+void gfx2d_set_tiles(Gfx2d* gfx, int x0, int y0, int x1, int y1, Tile tile) {
+  assert(gfx);
   for (int y = y0; y < y1; ++y) {
     for (int x = x0; x < x1; ++x) {
-      isogfx_set_tile(iso, x, y, tile);
+      gfx2d_set_tile(gfx, x, y, tile);
     }
   }
 }
 
-SpriteSheet isogfx_load_sprite_sheet(IsoGfx* iso, const char* filepath) {
-  assert(iso);
+SpriteSheet gfx2d_load_sprite_sheet(Gfx2d* gfx, const char* filepath) {
+  assert(gfx);
   assert(filepath);
 
   bool         success     = false;
   SpriteSheet  spriteSheet = 0;
-  const size_t watermark   = memstack_watermark(&iso->stack);
+  const size_t watermark   = memstack_watermark(&gfx->stack);
 
   // Load sprite sheet file.
   printf("Load sprite sheet: %s\n", filepath);
@@ -448,7 +448,7 @@ SpriteSheet isogfx_load_sprite_sheet(IsoGfx* iso, const char* filepath) {
   WITH_FILE(filepath, {
     const size_t file_size = get_file_size_f(file);
     ss_sheet =
-        memstack_alloc_aligned(&iso->stack, file_size, alignof(Ss_SpriteSheet));
+        memstack_alloc_aligned(&gfx->stack, file_size, alignof(Ss_SpriteSheet));
     success = read_file_f(file, ss_sheet);
   });
   if (!success) {
@@ -461,63 +461,63 @@ SpriteSheet isogfx_load_sprite_sheet(IsoGfx* iso, const char* filepath) {
 cleanup:
   if (!success) {
     if (ss_sheet) {
-      memstack_set_watermark(&iso->stack, watermark);
+      memstack_set_watermark(&gfx->stack, watermark);
     }
   }
   return spriteSheet;
 }
 
-Sprite isogfx_make_sprite(IsoGfx* iso, SpriteSheet sheet) {
-  assert(iso);
+Sprite gfx2d_make_sprite(Gfx2d* gfx, SpriteSheet sheet) {
+  assert(gfx);
   assert(sheet);
 
   // TODO: Remove memstack_alloc() and replace it with a same-name macro that
   //  calls memstack_alloc_aligned() with sizeof/alignof. No real point in
   //  having unaligned allocations.
   SpriteInstance* sprite = memstack_alloc_aligned(
-      &iso->stack, sizeof(SpriteInstance), alignof(SpriteInstance));
+      &gfx->stack, sizeof(SpriteInstance), alignof(SpriteInstance));
 
   sprite->sheet    = (const Ss_SpriteSheet*)sheet;
-  sprite->next     = iso->head_sprite;
-  iso->head_sprite = sprite;
+  sprite->next     = gfx->head_sprite;
+  gfx->head_sprite = sprite;
 
   return (Sprite)sprite;
 }
 
-void isogfx_set_sprite_position(IsoGfx* iso, Sprite hSprite, int x, int y) {
-  assert(iso);
+void gfx2d_set_sprite_position(Gfx2d* gfx, Sprite hSprite, int x, int y) {
+  assert(gfx);
   SpriteInstance* sprite = (SpriteInstance*)hSprite;
   sprite->position.x     = x;
   sprite->position.y     = y;
 }
 
-void isogfx_set_sprite_animation(IsoGfx* iso, Sprite hSprite, int animation) {
-  assert(iso);
+void gfx2d_set_sprite_animation(Gfx2d* gfx, Sprite hSprite, int animation) {
+  assert(gfx);
   SpriteInstance* sprite = (SpriteInstance*)hSprite;
   sprite->animation      = animation;
 }
 
-void isogfx_update(IsoGfx* iso, double t) {
-  assert(iso);
+void gfx2d_update(Gfx2d* gfx, double t) {
+  assert(gfx);
 
   // If this is the first time update() is called after initialization, just
   // record the starting animation time.
-  if (iso->last_animation_time == 0.0) {
-    iso->last_animation_time = t;
+  if (gfx->last_animation_time == 0.0) {
+    gfx->last_animation_time = t;
     return;
   }
 
-  if ((t - iso->last_animation_time) >= ANIMATION_UPDATE_DELTA) {
+  if ((t - gfx->last_animation_time) >= ANIMATION_UPDATE_DELTA) {
     // TODO: Consider linking animated sprites in a separate list so that we
     //  only walk over those here and not also the static sprites.
-    for (SpriteInstance* sprite = iso->head_sprite; sprite;
+    for (SpriteInstance* sprite = gfx->head_sprite; sprite;
          sprite                 = sprite->next) {
       const Ss_SpriteSheet* sheet = sprite->sheet;
       const Ss_Row* row = ss_get_sprite_sheet_row(sheet, sprite->animation);
       sprite->frame     = (sprite->frame + 1) % row->num_cols;
     }
 
-    iso->last_animation_time = t;
+    gfx->last_animation_time = t;
   }
 }
 
@@ -556,6 +556,7 @@ static void draw_rect(
     Screen* screen, ivec2 top_left, int rect_width, int rect_height,
     const Pixel* pixels, const uint8_t* indices) {
   assert(screen);
+  assert(pixels);
 
 #define rect_pixel(X, Y) \
   (indices ? pixels[indices[Y * rect_width + X]] : pixels[Y * rect_width + X])
@@ -584,116 +585,116 @@ static void draw_rect(
 }
 
 /// Draw a tile in an orthogonal map.
-static void draw_tile_ortho(IsoGfx* iso, Tile tile, int x, int y) {
-  assert(iso);
-  assert(iso->tileset);
+static void draw_tile_ortho(Gfx2d* gfx, Tile tile, int x, int y) {
+  assert(gfx);
+  assert(gfx->tileset);
   assert(x >= 0);
   assert(y >= 0);
-  assert(x < iso->map->world_width);
-  assert(y < iso->map->world_height);
+  assert(x < gfx->map->world_width);
+  assert(y < gfx->map->world_height);
 
-  const Ts_Tile* pTile  = ts_tileset_get_tile(iso->tileset, tile);
-  const Pixel*   pixels = ts_tileset_get_tile_pixels(iso->tileset, tile);
+  const Ts_Tile* pTile  = ts_tileset_get_tile(gfx->tileset, tile);
+  const Pixel*   pixels = ts_tileset_get_tile_pixels(gfx->tileset, tile);
 
   const ivec2 screen_origin = map2screen(
-      iso->camera, iso->map->base_tile_width, iso->map->base_tile_height, x, y);
+      gfx->camera, gfx->map->base_tile_width, gfx->map->base_tile_height, x, y);
 
   draw_rect(
-      &iso->screen, screen_origin, pTile->width, pTile->height, pixels,
+      &gfx->screen, screen_origin, pTile->width, pTile->height, pixels,
       nullptr);
 }
 
 /// Draw a tile in an isometric map.
-static void draw_tile_iso(IsoGfx* iso, Tile tile, int iso_x, int iso_y) {
-  assert(iso);
-  assert(iso->tileset);
+static void draw_tile_iso(Gfx2d* gfx, Tile tile, int iso_x, int iso_y) {
+  assert(gfx);
+  assert(gfx->tileset);
   assert(iso_x >= 0);
   assert(iso_y >= 0);
-  assert(iso_x < iso->map->world_width);
-  assert(iso_y < iso->map->world_height);
+  assert(iso_x < gfx->map->world_width);
+  assert(iso_y < gfx->map->world_height);
 
-  const Ts_Tile* pTile  = ts_tileset_get_tile(iso->tileset, tile);
-  const Pixel*   pixels = ts_tileset_get_tile_pixels(iso->tileset, tile);
+  const Ts_Tile* pTile  = ts_tileset_get_tile(gfx->tileset, tile);
+  const Pixel*   pixels = ts_tileset_get_tile_pixels(gfx->tileset, tile);
 
   // Compute the screen coordinates of the top diamond-corner of the tile (the
   // base tile for super tiles).
   //   World (0, 0) -> (screen_width / 2, 0).
   const ivec2 screen_origin =
-      iso2cart(iso->iso_space, iso->camera, iso_x, iso_y);
+      iso2cart(gfx->iso_space, gfx->camera, iso_x, iso_y);
 
   // Move from the top diamond-corner to the top-left corner of the tile image.
   // For regular tiles, tile height == base tile height, so the y offset is 0.
   // For super tiles, move as high up as the height of the tile.
   const ivec2 offset = {
-      -(iso->map->base_tile_width / 2),
-      pTile->height - iso->map->base_tile_height};
+      -(gfx->map->base_tile_width / 2),
+      pTile->height - gfx->map->base_tile_height};
   const ivec2 top_left = ivec2_add(screen_origin, offset);
 
   draw_rect(
-      &iso->screen, top_left, pTile->width, pTile->height, pixels, nullptr);
+      &gfx->screen, top_left, pTile->width, pTile->height, pixels, nullptr);
 }
 
-static void draw_map_ortho(IsoGfx* iso) {
-  assert(iso);
-  assert(iso->map);
+static void draw_map_ortho(Gfx2d* gfx) {
+  assert(gfx);
+  assert(gfx->map);
 
   // TODO: Same TODOs as in draw_map_iso().
 
-  const Tm_Layer* layer = tm_map_get_layer(iso->map, 0);
+  const Tm_Layer* layer = tm_map_get_layer(gfx->map, 0);
 
-  for (int wy = 0; wy < iso->map->world_height; ++wy) {
-    for (int wx = 0; wx < iso->map->world_width; ++wx) {
-      const Tile tile = tm_layer_get_tile(iso->map, layer, wx, wy);
-      draw_tile_ortho(iso, tile, wx, wy);
+  for (int wy = 0; wy < gfx->map->world_height; ++wy) {
+    for (int wx = 0; wx < gfx->map->world_width; ++wx) {
+      const Tile tile = tm_layer_get_tile(gfx->map, layer, wx, wy);
+      draw_tile_ortho(gfx, tile, wx, wy);
     }
   }
 }
 
-static void draw_map_iso(IsoGfx* iso) {
-  assert(iso);
-  assert(iso->map);
+static void draw_map_iso(Gfx2d* gfx) {
+  assert(gfx);
+  assert(gfx->map);
 
   // TODO: Support for multiple layers.
-  const Tm_Layer* layer = tm_map_get_layer(iso->map, 0);
+  const Tm_Layer* layer = tm_map_get_layer(gfx->map, 0);
 
   // 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 since the
   //  screen-centric approach would juggle multiple tiles throughout the scan.
-  for (int wy = 0; wy < iso->map->world_height; ++wy) {
-    for (int wx = 0; wx < iso->map->world_width; ++wx) {
-      const Tile tile = tm_layer_get_tile(iso->map, layer, wx, wy);
-      draw_tile_iso(iso, tile, wx, wy);
+  for (int wy = 0; wy < gfx->map->world_height; ++wy) {
+    for (int wx = 0; wx < gfx->map->world_width; ++wx) {
+      const Tile tile = tm_layer_get_tile(gfx->map, layer, wx, wy);
+      draw_tile_iso(gfx, tile, wx, wy);
     }
   }
 }
 
-static void draw_map(IsoGfx* iso) {
-  assert(iso);
-  assert(iso->map);
-  assert(iso->screen.pixels);
+static void draw_map(Gfx2d* gfx) {
+  assert(gfx);
+  assert(gfx->map);
+  assert(gfx->screen.pixels);
 
-  const int W = iso->screen.width;
-  const int H = iso->screen.height;
+  const int W = gfx->screen.width;
+  const int H = gfx->screen.height;
 
-  memset(iso->screen.pixels, 0, W * H * sizeof(Pixel));
+  memset(gfx->screen.pixels, 0, W * H * sizeof(Pixel));
 
-  const Tm_Flags* flags = (const Tm_Flags*)&iso->map->flags;
+  const Tm_Flags* flags = (const Tm_Flags*)&gfx->map->flags;
   switch (flags->orientation) {
   case Tm_Orthogonal:
-    draw_map_ortho(iso);
+    draw_map_ortho(gfx);
     break;
   case Tm_Isometric:
-    draw_map_iso(iso);
+    draw_map_iso(gfx);
     break;
   }
 }
 
 /// Draw a sprite in an orthogonal/Cartesian coordinate system.
 static void draw_sprite_ortho(
-    IsoGfx* iso, const SpriteInstance* sprite, const Ss_SpriteSheet* sheet) {
-  assert(iso);
+    Gfx2d* gfx, const SpriteInstance* sprite, const Ss_SpriteSheet* sheet) {
+  assert(gfx);
   assert(sprite);
   assert(sheet);
   assert(sprite->animation >= 0);
@@ -704,20 +705,20 @@ static void draw_sprite_ortho(
   // -base_tile_width/2 along the x-axis to align the sprite with the leftmost
   // edge of the tile it is on.
   const ivec2 screen_origin = map2screen(
-      iso->camera, iso->map->base_tile_width, iso->map->base_tile_height,
+      gfx->camera, gfx->map->base_tile_width, gfx->map->base_tile_height,
       sprite->position.x, sprite->position.y);
 
   const Ss_Row*  row   = ss_get_sprite_sheet_row(sheet, sprite->animation);
   const uint8_t* frame = ss_get_sprite_sheet_sprite(sheet, row, sprite->frame);
   draw_rect(
-      &iso->screen, screen_origin, sheet->sprite_width, sheet->sprite_height,
+      &gfx->screen, screen_origin, sheet->sprite_width, sheet->sprite_height,
       sheet->palette.colours, frame);
 }
 
 /// Draw a sprite in an isometric coordinate system.
 static void draw_sprite_iso(
-    IsoGfx* iso, const SpriteInstance* sprite, const Ss_SpriteSheet* sheet) {
-  assert(iso);
+    Gfx2d* gfx, const SpriteInstance* sprite, const Ss_SpriteSheet* sheet) {
+  assert(gfx);
   assert(sprite);
   assert(sheet);
   assert(sprite->animation >= 0);
@@ -728,92 +729,92 @@ static void draw_sprite_iso(
   // -base_tile_width/2 along the x-axis to align the sprite with the leftmost
   // edge of the tile it is on.
   const ivec2 screen_origin = iso2cart(
-      iso->iso_space, iso->camera, sprite->position.x, sprite->position.y);
-  const ivec2 offset   = {-(iso->map->base_tile_width / 2), 0};
+      gfx->iso_space, gfx->camera, sprite->position.x, sprite->position.y);
+  const ivec2 offset   = {-(gfx->map->base_tile_width / 2), 0};
   const ivec2 top_left = ivec2_add(screen_origin, offset);
 
   const Ss_Row*  row   = ss_get_sprite_sheet_row(sheet, sprite->animation);
   const uint8_t* frame = ss_get_sprite_sheet_sprite(sheet, row, sprite->frame);
   draw_rect(
-      &iso->screen, top_left, sheet->sprite_width, sheet->sprite_height,
+      &gfx->screen, top_left, sheet->sprite_width, sheet->sprite_height,
       sheet->palette.colours, frame);
 }
 
-static void draw_sprites(IsoGfx* iso) {
-  assert(iso);
-  assert(iso->map);
+static void draw_sprites(Gfx2d* gfx) {
+  assert(gfx);
+  assert(gfx->map);
 
-  const Tm_Flags* flags = (const Tm_Flags*)&iso->map->flags;
+  const Tm_Flags* flags = (const Tm_Flags*)&gfx->map->flags;
   switch (flags->orientation) {
   case Tm_Orthogonal:
-    for (const SpriteInstance* sprite = iso->head_sprite; sprite;
+    for (const SpriteInstance* sprite = gfx->head_sprite; sprite;
          sprite                       = sprite->next) {
-      draw_sprite_ortho(iso, sprite, sprite->sheet);
+      draw_sprite_ortho(gfx, sprite, sprite->sheet);
     }
     break;
   case Tm_Isometric:
-    for (const SpriteInstance* sprite = iso->head_sprite; sprite;
+    for (const SpriteInstance* sprite = gfx->head_sprite; sprite;
          sprite                       = sprite->next) {
-      draw_sprite_iso(iso, sprite, sprite->sheet);
+      draw_sprite_iso(gfx, sprite, sprite->sheet);
     }
     break;
   }
 }
 
-void isogfx_set_camera(IsoGfx* iso, int x, int y) {
-  assert(iso);
-  iso->camera = (ivec2){x, y};
+void gfx2d_set_camera(Gfx2d* gfx, int x, int y) {
+  assert(gfx);
+  gfx->camera = (ivec2){x, y};
 }
 
-void isogfx_render(IsoGfx* iso) {
-  assert(iso);
-  draw_map(iso);
-  draw_sprites(iso);
+void gfx2d_render(Gfx2d* gfx) {
+  assert(gfx);
+  draw_map(gfx);
+  draw_sprites(gfx);
 }
 
-void isogfx_draw_tile(IsoGfx* iso, int x, int y, Tile tile) {
-  assert(iso);
-  assert(iso->map);
+void gfx2d_draw_tile(Gfx2d* gfx, int x, int y, Tile tile) {
+  assert(gfx);
+  assert(gfx->map);
 
-  const Tm_Flags* flags = (const Tm_Flags*)&iso->map->flags;
+  const Tm_Flags* flags = (const Tm_Flags*)&gfx->map->flags;
   switch (flags->orientation) {
   case Tm_Orthogonal:
-    draw_tile_ortho(iso, tile, x, y);
+    draw_tile_ortho(gfx, tile, x, y);
     break;
   case Tm_Isometric:
-    draw_tile_iso(iso, tile, x, y);
+    draw_tile_iso(gfx, tile, x, y);
     break;
   }
 }
 
-void isogfx_get_screen_size(const IsoGfx* iso, int* width, int* height) {
-  assert(iso);
+void gfx2d_get_screen_size(const Gfx2d* gfx, int* width, int* height) {
+  assert(gfx);
   assert(width);
   assert(height);
-  *width  = iso->screen.width;
-  *height = iso->screen.height;
+  *width  = gfx->screen.width;
+  *height = gfx->screen.height;
 }
 
-const Pixel* isogfx_get_screen_buffer(const IsoGfx* iso) {
-  assert(iso);
-  return iso->screen.pixels;
+const Pixel* gfx2d_get_screen_buffer(const Gfx2d* gfx) {
+  assert(gfx);
+  return gfx->screen.pixels;
 }
 
-void isogfx_pick_tile(
-    const IsoGfx* iso, double xcart, double ycart, int* xiso, int* yiso) {
-  assert(iso);
+void gfx2d_pick_tile(
+    const Gfx2d* gfx, double xcart, double ycart, int* xiso, int* yiso) {
+  assert(gfx);
   assert(xiso);
   assert(yiso);
 
-  const vec2 camera  = ivec2_to_vec2(iso->camera);
+  const vec2 camera  = ivec2_to_vec2(gfx->camera);
   const vec2 xy_cart = vec2_add(camera, (vec2){xcart, ycart});
 
   const vec2 xy_iso = cart2iso(
-      xy_cart, iso->map->base_tile_width, iso->map->base_tile_height,
-      iso->screen.width);
+      xy_cart, gfx->map->base_tile_width, gfx->map->base_tile_height,
+      gfx->screen.width);
 
-  if ((0 <= xy_iso.x) && (xy_iso.x < iso->map->world_width) &&
-      (0 <= xy_iso.y) && (xy_iso.y < iso->map->world_height)) {
+  if ((0 <= xy_iso.x) && (xy_iso.x < gfx->map->world_width) &&
+      (0 <= xy_iso.y) && (xy_iso.y < gfx->map->world_height)) {
     *xiso = (int)xy_iso.x;
     *yiso = (int)xy_iso.y;
   } else {