path: root/src/devices/memory.rs



macro_rules! then_inc { ($v:expr) => {{ $v = $v.wrapping_add(1); $v as usize }}; }

type Page = [u8; 65536];
fn new_blank_page() -> [u8; 65536] { [0; 65536] }


pub struct MemoryDevice {
    // Hard limit on the number of pages which can be allocated
    pub page_limit: u16,
    // Pages which have actually been allocated
    pub pages: Vec<Page>,

    pub page_1: u16,
    pub address_1: u16,
    pub page_2: u16,
    pub address_2: u16,
    pub copy_length: u16,
}

impl MemoryDevice {
    pub fn new() -> Self {
        Self {
            page_limit: 0,
            pages: Vec::new(),

            page_1: 0,
            address_1: 0,
            page_2: 0,
            address_2: 0,
            copy_length: 0,
        }
    }

    pub fn copy(&mut self) {
        let count = std::cmp::max(self.page_1, self.page_2) as usize + 1;
        if count <= self.page_limit as usize {
            if self.pages.len() < count {
                self.pages.resize_with(count, new_blank_page);
            }
            let p1 = self.page_1 as usize;
            let p2 = self.page_2 as usize;
            let a1 = self.address_1;
            let a2 = self.address_2;

            for i in 0..=self.copy_length {
                let byte = self.pages[p2][a2.wrapping_add(i) as usize];
                self.pages[p1][a1.wrapping_add(i) as usize] = byte;
            }
        }
    }

    pub fn read_from_head_1(&mut self) -> u8 {
        let address = then_inc!(self.address_1);
        if let Some(page) = self.pages.get(self.page_1 as usize) {
            page[address]
        } else {
            0x00
        }
    }

    pub fn read_from_head_2(&mut self) -> u8 {
        let address = then_inc!(self.address_2);
        if let Some(page) = self.pages.get(self.page_2 as usize) {
            page[address]
        } else {
            0x00
        }
    }

    pub fn write_to_head_1(&mut self, byte: u8) {
        let address = then_inc!(self.address_1);
        let page = self.page_1 as usize;
        if self.page_limit as usize > page {
            if self.pages.len() <= page {
                self.pages.resize_with(page + 1, new_blank_page);
            }
            self.pages[page][address] = byte;
        }
    }

    pub fn write_to_head_2(&mut self, byte: u8) {
        let address = then_inc!(self.address_1);
        let page = self.page_2 as usize;
        if self.page_limit as usize > page {
            if self.pages.len() <= page {
                self.pages.resize_with(page + 1, new_blank_page);
            }
            self.pages[page][address] = byte;
        }
    }
}
macro_rules! then_inc { ($v:expr) => {{ $v = $v.wrapping_add(1); $v as usize }}; }

type Page = [u8; 65536];
fn new_blank_page() -> [u8; 65536] { [0; 65536] }


pub struct MemoryDevice {
    // Hard limit on the number of pages which can be allocated
    pub page_limit: u16,
    // Pages which have actually been allocated
    pub pages: Vec<Page>,

    pub page_1: u16,
    pub address_1: u16,
    pub page_2: u16,
    pub address_2: u16,
    pub copy_length: u16,
}

impl MemoryDevice {
    pub fn new() -> Self {
        Self {
            page_limit: 0,
            pages: Vec::new(),

            page_1: 0,
            address_1: 0,
            page_2: 0,
            address_2: 0,
            copy_length: 0,
        }
    }

    pub fn copy(&mut self) {
        let count = std::cmp::max(self.page_1, self.page_2) as usize + 1;
        if count <= self.page_limit as usize {
            if self.pages.len() < count {
                self.pages.resize_with(count, new_blank_page);
            }
            let p1 = self.page_1 as usize;
            let p2 = self.page_2 as usize;
            let a1 = self.address_1;
            let a2 = self.address_2;

            for i in 0..=self.copy_length {
                let byte = self.pages[p2][a2.wrapping_add(i) as usize];
                self.pages[p1][a1.wrapping_add(i) as usize] = byte;
            }
        }
    }

    pub fn read_from_head_1(&mut self) -> u8 {
        let address = then_inc!(self.address_1);
        if let Some(page) = self.pages.get(self.page_1 as usize) {
            page[address]
        } else {
            0x00
        }
    }

    pub fn read_from_head_2(&mut self) -> u8 {
        let address = then_inc!(self.address_2);
        if let Some(page) = self.pages.get(self.page_2 as usize) {
            page[address]
        } else {
            0x00
        }
    }

    pub fn write_to_head_1(&mut self, byte: u8) {
        let address = then_inc!(self.address_1);
        let page = self.page_1 as usize;
        if self.page_limit as usize > page {
            if self.pages.len() <= page {
                self.pages.resize_with(page + 1, new_blank_page);
            }
            self.pages[page][address] = byte;
        }
    }

    pub fn write_to_head_2(&mut self, byte: u8) {
        let address = then_inc!(self.address_1);
        let page = self.page_2 as usize;
        if self.page_limit as usize > page {
            if self.pages.len() <= page {
                self.pages.resize_with(page + 1, new_blank_page);
            }
            self.pages[page][address] = byte;
        }
    }
}