ReC98/planar.h

205 lines
5.7 KiB
C++

/* ReC98
* -----
* Declarations for planar 4bpp graphics
*/
// 1bpp types, describing horizontal lines of 8, 16, or 32 pixels.
typedef uint8_t dots8_t;
typedef uint16_t dots16_t;
typedef uint32_t dots32_t;
// ... and the same for the rare cases where ZUN's code used signed types.
typedef int8_t sdots8_t;
typedef int16_t sdots16_t;
typedef int32_t sdots32_t;
// Defines a hardcoded 1bpp sprite, pre-shifted to all 8 start X positions
// within a single VRAM byte.
#define PRESHIFT BYTE_DOTS
typedef enum {
PL_B, PL_R, PL_G, PL_E
} vram_plane_t;
// Abstracted dot and planar types, with their width defined by a macro.
#define dots_t_(x) dots##x##_t
#define dots_t(x) dots_t_(x)
#define sdots_t_(x) sdots##x##_t
#define sdots_t(x) sdots_t_(x)
#ifdef __cplusplus
template <class T> struct Planar {
T B, R, G, E;
T& operator [](int plane) {
return (&B)[plane];
}
const T& operator [](int plane) const {
return (&B)[plane];
}
};
// Base template for a 1bpp rectangle, with a custom per-row data type.
template <class RowDots, pixel_t H> struct DotRect {
typedef RowDots row_dots_t;
row_dots_t row[H];
row_dots_t& operator [](pixel_t y) {
return row[y];
}
const row_dots_t& operator [](pixel_t y) const {
return row[y];
}
static pixel_t w() {
return (sizeof(row_dots_t) * 8);
}
static pixel_t h() {
return H;
}
};
#define dot_rect_t(w, h) DotRect<dots_t(w), h>
#endif
// Since array subscripts create slightly different assembly in places, we
// offer both variants.
extern dots8_t far *VRAM_PLANE[PLANE_COUNT];
// And no, expressing these as a struct won't generate the same ASM.
// Been there, tried that.
extern dots8_t far *VRAM_PLANE_B;
extern dots8_t far *VRAM_PLANE_G;
extern dots8_t far *VRAM_PLANE_R;
extern dots8_t far *VRAM_PLANE_E;
// Byte offset of an 8-pixel-aligned X/Y position on a VRAM bitplane,
// relative to the beginning (= top-left corner) of the plane.
typedef int16_t vram_offset_t;
// MODDERS: Delete (yes, this one, not the signed one above!)
typedef uint16_t uvram_offset_t;
#define VRAM_OFFSET_SHIFT(x, y) \
(x >> 3) + (y << 6) + (y << 4)
#ifdef __cplusplus
// MODDERS: Replace with a single function
static inline vram_offset_t vram_offset_shift(screen_x_t x, vram_y_t y)
{
return VRAM_OFFSET_SHIFT(x, y);
}
static inline vram_offset_t vram_offset_muldiv(screen_x_t x, vram_y_t y)
{
return (y * ROW_SIZE) + (x / BYTE_DOTS);
}
static inline vram_offset_t vram_offset_divmul(screen_x_t x, vram_y_t y)
{
return (x / BYTE_DOTS) + (y * ROW_SIZE);
}
static inline vram_offset_t vram_offset_divmul_double(double x, double y)
{
return (x / BYTE_DOTS) + (y * ROW_SIZE);
}
static inline vram_offset_t vram_offset_divmul_wtf(screen_x_t x, vram_y_t y)
{
return ((((x + RES_X) / BYTE_DOTS) + (y * ROW_SIZE)) - ROW_SIZE);
}
static inline vram_offset_t vram_offset_mulshift(screen_x_t x, vram_y_t y)
{
return (y * ROW_SIZE) + (x >> 3);
}
static inline vram_offset_t vram_offset_divshift_wtf(screen_x_t x, vram_y_t y)
{
return ((((x + RES_X) / BYTE_DOTS) + (y << 6) + (y << 4)) - ROW_SIZE);
}
#endif
#define VRAM_CHUNK(plane, offset, bit_count) \
*(dots##bit_count##_t *)(VRAM_PLANE_##plane + offset)
#define VRAM_SNAP(dst, plane, offset, bit_count) \
dst = VRAM_CHUNK(plane, offset, bit_count);
// And no, code generation prohibits these from being turned into nice
// templated class methods. Been there, tried that.
#define VRAM_SNAP_PLANAR(dst, offset, bit_count) \
VRAM_SNAP(dst.B, B, offset, bit_count); \
VRAM_SNAP(dst.R, R, offset, bit_count); \
VRAM_SNAP(dst.G, G, offset, bit_count); \
VRAM_SNAP(dst.E, E, offset, bit_count);
#define vram_snap_planar_masked(dst, offset, bit_count, mask) \
dst.B = VRAM_CHUNK(B, offset, bit_count) & mask; \
dst.R = VRAM_CHUNK(R, offset, bit_count) & mask; \
dst.G = VRAM_CHUNK(G, offset, bit_count) & mask; \
dst.E = VRAM_CHUNK(E, offset, bit_count) & mask;
#define VRAM_PUT(plane, offset, src, bit_count) \
VRAM_CHUNK(plane, offset, bit_count) = src;
#define VRAM_PUT_PLANAR(offset, src, bit_count) \
VRAM_PUT(B, offset, src.B, bit_count); \
VRAM_PUT(R, offset, src.R, bit_count); \
VRAM_PUT(G, offset, src.G, bit_count); \
VRAM_PUT(E, offset, src.E, bit_count);
#define vram_or_emptyopt(plane, offset, src, bit_count) \
if(src) { \
VRAM_CHUNK(plane, offset, bit_count) |= src; \
}
#define vram_or_masked_emptyopt(plane, offset, bit_count, src, mask) \
if(src) { \
VRAM_CHUNK(plane, offset, bit_count) |= (src & mask); \
}
#define vram_or_planar(offset, src, bit_count) \
VRAM_CHUNK(B, offset, bit_count) |= src.B; \
VRAM_CHUNK(R, offset, bit_count) |= src.R; \
VRAM_CHUNK(G, offset, bit_count) |= src.G; \
VRAM_CHUNK(E, offset, bit_count) |= src.E;
#define vram_or_planar_emptyopt(offset, src, bit_count) \
vram_or_emptyopt(B, offset, src.B, bit_count); \
vram_or_emptyopt(R, offset, src.R, bit_count); \
vram_or_emptyopt(G, offset, src.G, bit_count); \
vram_or_emptyopt(E, offset, src.E, bit_count);
#define plane_dword_blit(dst, src) \
for(int p = 0; p < PLANE_SIZE; p += (int)sizeof(dots32_t)) { \
*(dots32_t*)((dst) + p) = *(dots32_t*)((src) + p); \
}
#define grcg_chunk(vram_offset, bit_count) \
VRAM_CHUNK(B, vram_offset, bit_count)
#define grcg_chunk_8(vram_offset) \
peekb(SEG_PLANE_B, vram_offset)
#define grcg_put(offset, src, bit_count) \
VRAM_PUT(B, offset, src, bit_count)
#define grcg_put_emptyopt(offset, src, bit_count) \
if(src) { \
grcg_put(offset, src, bit_count); \
}
#define grcg_put_8(offset, src) \
/* Nope, pokeb() doesn't generate the same code */ \
*reinterpret_cast<dots8_t *>(MK_FP(SEG_PLANE_B, offset)) = src
#define grcg_snap(dst, offset, bit_count) \
VRAM_SNAP(dst, B, offset, bit_count)
#define egc_put grcg_put
#define egc_put_emptyopt grcg_put_emptyopt
#define egc_snap grcg_snap