Reorganize sprite rendering code

This commit contains changes I forgot to push way earlier.


Former-commit-id: 793bfc2bde25f2299136e6b196f2770ee1db8d19
This commit is contained in:
Michel Heily 2019-11-20 05:27:57 +02:00
parent bb08b2f48e
commit 64a877369d
2 changed files with 107 additions and 102 deletions

View file

@ -182,6 +182,14 @@ pub enum WindowType {
WinNone, WinNone,
} }
#[derive(Debug, Default, Copy, Clone)]
pub struct AffineMatrix {
pub pa: i32,
pub pb: i32,
pub pc: i32,
pub pd: i32,
}
#[derive(Debug, Default, Copy, Clone)] #[derive(Debug, Default, Copy, Clone)]
pub struct BgAffine { pub struct BgAffine {
pub pa: i16, // dx pub pa: i16, // dx

View file

@ -2,35 +2,26 @@ use super::super::SysBus;
use super::regs::*; use super::regs::*;
use super::*; use super::*;
use crate::core::sysbus::OAM_ADDR;
const OVRAM: u32 = 0x0601_0000; const OVRAM: u32 = 0x0601_0000;
const PALRAM_OFS_FG: u32 = 0x200; const PALRAM_OFS_FG: u32 = 0x200;
const ATTRS_SIZE: u32 = 2 * 3 + 2; const ATTRS_SIZE: u32 = 2 * 3 + 2;
struct ObjAttrs(Attribute0, Attribute1, Attribute2); struct ObjAttrs(Attribute0, Attribute1, Attribute2);
struct ObjAffineParams {
pa: i16,
pb: i16,
pc: i16,
pd: i16,
}
const AFFINE_FILL: u32 = 2 * 3; const AFFINE_FILL: u32 = 2 * 3;
impl ObjAffineParams { impl AffineMatrix {
fn from_index(sb: &SysBus, index: u32) -> ObjAffineParams { fn from_index(sb: &SysBus, index: u32) -> AffineMatrix {
let mut offset = AFFINE_FILL + index * 16 * 2; let mut offset = AFFINE_FILL + index * 16 * 2;
let pa = sb.read_16(offset) as i16; let pa = sb.oam.read_16(offset) as i16 as i32;
offset += 2 + AFFINE_FILL; offset += 2 + AFFINE_FILL;
let pb = sb.read_16(offset) as i16; let pb = sb.oam.read_16(offset) as i16 as i32;
offset += 2 + AFFINE_FILL; offset += 2 + AFFINE_FILL;
let pc = sb.read_16(offset) as i16; let pc = sb.oam.read_16(offset) as i16 as i32;
offset += 2 + AFFINE_FILL; offset += 2 + AFFINE_FILL;
let pd = sb.read_16(offset) as i16; let pd = sb.oam.read_16(offset) as i16 as i32;
ObjAffineParams { pa, pb, pc, pd } AffineMatrix { pa, pb, pc, pd }
} }
} }
@ -52,8 +43,16 @@ impl ObjAttrs {
_ => (8, 8), // according to commit f01016a30b2e8482d06798895ebc674370e81816 in melonDS _ => (8, 8), // according to commit f01016a30b2e8482d06798895ebc674370e81816 in melonDS
} }
} }
fn coords(&self) -> (usize, usize) { fn coords(&self) -> (i32, i32) {
(self.1.x_coord() as usize, self.0.y_coord() as usize) let mut y = self.0.y_coord() as i16 as i32;
let mut x = self.1.x_coord() as i16 as i32;
if y >= (DISPLAY_HEIGHT as i32) {
y -= 1 << 8;
}
if x >= (DISPLAY_WIDTH as i32) {
x -= 1 << 9;
}
(x, y)
} }
fn tile_format(&self) -> (usize, PixelFormat) { fn tile_format(&self) -> (usize, PixelFormat) {
if self.0.is_8bpp() { if self.0.is_8bpp() {
@ -72,16 +71,12 @@ impl ObjAttrs {
let attr1 = (self.1).0; let attr1 = (self.1).0;
((attr1 >> 9) & 0x1f) as u32 ((attr1 >> 9) & 0x1f) as u32
} }
fn affine_matrix(&self, sb: &SysBus) -> AffineMatrix {
AffineMatrix::from_index(sb, self.affine_index())
}
fn is_hidden(&self) -> bool { fn is_hidden(&self) -> bool {
self.0.objtype() == ObjType::Hidden self.0.objtype() == ObjType::Hidden
} }
fn flip_xy(&self) -> (bool, bool) {
if !self.is_affine() {
(self.1.h_flip(), self.1.v_flip())
} else {
(false, false)
}
}
} }
fn read_obj_attrs(sb: &SysBus, obj: usize) -> ObjAttrs { fn read_obj_attrs(sb: &SysBus, obj: usize) -> ObjAttrs {
@ -100,27 +95,19 @@ impl Gpu {
} }
} }
pub fn render_objs(&mut self, sb: &SysBus) { fn render_affine_obj(&mut self, sb: &SysBus, obj: ObjAttrs, _obj_num: usize) {
let screen_y = self.current_scanline; // PASS
// reset the scanline
self.obj_line = Scanline::default();
self.obj_line_priorities = Scanline([3; DISPLAY_WIDTH]);
for obj_num in (0..128).rev() {
let obj = read_obj_attrs(sb, obj_num);
if obj.is_hidden() {
continue;
} }
let is_affine = obj.is_affine(); fn render_normal_obj(&mut self, sb: &SysBus, obj: ObjAttrs, _obj_num: usize) {
if is_affine { let screen_y = self.current_scanline as i32;
panic!("im not ready for that yet :(");
}
let (obj_x, obj_y) = obj.coords(); let (ref_x, ref_y) = obj.coords();
let (obj_w, obj_h) = obj.size(); let (obj_w, obj_h) = obj.size();
// skip this obj if not within its bounds.
if !(screen_y >= obj_y && screen_y < obj_y + obj_h) { // skip this obj if not within its vertical bounds.
continue; if !(screen_y >= ref_y && screen_y < ref_y + obj_h) {
return;
} }
let tile_base = self.obj_tile_base() + 0x20 * (obj.2.tile() as u32); let tile_base = self.obj_tile_base() + 0x20 * (obj.2.tile() as u32);
@ -142,47 +129,57 @@ impl Gpu {
} }
}; };
let (xflip, yflip) = obj.flip_xy(); // render the pixels
let screen_width = DISPLAY_WIDTH as i32;
let end_x = obj_x + obj_w; let end_x = ref_x + obj_w;
for screen_x in obj_x..end_x { for screen_x in ref_x..end_x {
if screen_x > DISPLAY_WIDTH { if screen_x < 0 {
break;
}
if self.obj_line_priorities[screen_x] < obj.2.priority() {
continue; continue;
} }
let mut sprite_y = screen_y - obj_y; if screen_x >= screen_width {
let mut sprite_x = screen_x - obj_x; break;
if (!is_affine) { }
sprite_y = if yflip { if self.obj_line_priorities[screen_x as usize] < obj.2.priority() {
continue;
}
let mut sprite_y = screen_y - ref_y;
let mut sprite_x = screen_x - ref_x;
sprite_y = if obj.1.v_flip() {
obj_h - sprite_y - 1 obj_h - sprite_y - 1
} else { } else {
sprite_y sprite_y
}; };
sprite_x = if xflip { sprite_x = if obj.1.h_flip() {
obj_w - sprite_x - 1 obj_w - sprite_x - 1
} else { } else {
sprite_x sprite_x
}; };
}
let tile_x = sprite_x % 8; let tile_x = sprite_x % 8;
let tile_y = sprite_y % 8; let tile_y = sprite_y % 8;
let tile_addr = tile_base let tile_addr = tile_base
+ index2d!(u32, sprite_x / 8, sprite_y / 8, tile_array_width) + index2d!(u32, sprite_x / 8, sprite_y / 8, tile_array_width) * (tile_size as u32);
* (tile_size as u32); let pixel_index =
let pixel_index = self.read_pixel_index( self.read_pixel_index(sb, tile_addr, tile_x as u32, tile_y as u32, pixel_format);
sb,
tile_addr,
tile_x as u32,
tile_y as u32,
pixel_format,
);
let pixel_color = let pixel_color =
self.get_palette_color(sb, pixel_index as u32, palette_bank, PALRAM_OFS_FG); self.get_palette_color(sb, pixel_index as u32, palette_bank, PALRAM_OFS_FG);
if pixel_color != Rgb15::TRANSPARENT { if pixel_color != Rgb15::TRANSPARENT {
self.obj_line[screen_x] = pixel_color; self.obj_line[screen_x as usize] = pixel_color;
self.obj_line_priorities[screen_x] = obj.2.priority(); self.obj_line_priorities[screen_x as usize] = obj.2.priority();
}
}
}
pub fn render_objs(&mut self, sb: &SysBus) {
// reset the scanline
self.obj_line = Scanline::default();
self.obj_line_priorities = Scanline([3; DISPLAY_WIDTH]);
for obj_num in (0..128).rev() {
let obj = read_obj_attrs(sb, obj_num);
match obj.0.objtype() {
ObjType::Hidden => continue,
ObjType::Normal => self.render_normal_obj(sb, obj, obj_num),
ObjType::Affine | ObjType::AffineDoubleSize => {
self.render_affine_obj(sb, obj, obj_num)
} }
} }
} }