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// This file is part of the CircuitPython project: https://circuitpython.org

//

// SPDX-FileCopyrightText: Copyright (c) 2018 Scott Shawcroft for Adafruit Industries

// SPDX-FileCopyrightText: Copyright (c) 2025 SamantazFox

//

// SPDX-License-Identifier: MIT

#include "shared-bindings/displayio/OnDiskBitmap.h"

#include "shared-bindings/displayio/ColorConverter.h"

#include "shared-bindings/displayio/Palette.h"

#include "shared-module/displayio/ColorConverter.h"

#include "shared-module/displayio/Palette.h"

#include <string.h>

#include "py/mperrno.h"

#include "py/runtime.h"

#define DISPLAYIO_ODBMP_DEBUG(...) (void)0

// #define DISPLAYIO_ODBMP_DEBUG(...) mp_printf(&mp_plat_print __VA_OPT__(,) __VA_ARGS__)

static uint32_t read_word(uint16_t *bmp_header, uint16_t index) {

return bmp_header[index] | bmp_header[index + 1] << 16;

}

void common_hal_displayio_ondiskbitmap_construct(displayio_ondiskbitmap_t *self, pyb_file_obj_t *file) {

// Load the wave

self->file = file;

uint16_t bmp_header[69];

f_rewind(&self->file->fp);

UINT bytes_read;

// Read the minimum amount of bytes required to parse a BITMAPCOREHEADER.

// If needed, we will read more bytes down below.

if (f_read(&self->file->fp, bmp_header, 26, &bytes_read) != FR_OK) {

mp_raise_OSError(MP_EIO);

}

DISPLAYIO_ODBMP_DEBUG("bytes_read: %d\n", bytes_read);

if (bytes_read != 26 || memcmp(bmp_header, "BM", 2) != 0) {

mp_arg_error_invalid(MP_QSTR_file);

}

// Read header size to determine if more header bytes needs to be read.

uint32_t header_size = read_word(bmp_header, 7);

DISPLAYIO_ODBMP_DEBUG("header_size: %d\n", header_size);

if (header_size == 40 || header_size == 108 || header_size == 124) {

// Read the remaining header bytes

if (f_read(&self->file->fp, bmp_header + 13, header_size - 12, &bytes_read) != FR_OK) {

mp_raise_OSError(MP_EIO);

}

DISPLAYIO_ODBMP_DEBUG("bytes_read: %d\n", bytes_read);

if (bytes_read != (header_size - 12)) {

mp_arg_error_invalid(MP_QSTR_file);

}

} else if (header_size != 12) {

mp_raise_ValueError_varg(MP_ERROR_TEXT("Only Windows format, uncompressed BMP supported: given header size is %d"), header_size);

}

uint32_t compression = read_word(bmp_header, 15);

DISPLAYIO_ODBMP_DEBUG("compression: %d\n", compression);

// 0 is uncompressed; 3 is bitfield compressed. 1 and 2 are RLE compression.

if (compression != 0 && compression != 3) {

mp_raise_ValueError(MP_ERROR_TEXT("RLE-compressed BMP not supported"));

}

// We can't cast because we're not aligned.

self->data_offset = read_word(bmp_header, 5);

self->bitfield_compressed = (compression == 3);

self->bits_per_pixel = bmp_header[14];

self->width = read_word(bmp_header, 9);

self->height = read_word(bmp_header, 11);

DISPLAYIO_ODBMP_DEBUG("data offset: %d\n", self->data_offset);

DISPLAYIO_ODBMP_DEBUG("width: %d\n", self->width);

DISPLAYIO_ODBMP_DEBUG("height: %d\n", self->height);

DISPLAYIO_ODBMP_DEBUG("bpp: %d\n", self->bits_per_pixel);

displayio_colorconverter_t *colorconverter =

mp_obj_malloc(displayio_colorconverter_t, &displayio_colorconverter_type);

common_hal_displayio_colorconverter_construct(colorconverter, false, DISPLAYIO_COLORSPACE_RGB888);

self->colorconverter = colorconverter;

if (self->bits_per_pixel == 16) {

if (((header_size >= 56)) || (self->bitfield_compressed)) {

self->r_bitmask = read_word(bmp_header, 27);

self->g_bitmask = read_word(bmp_header, 29);

self->b_bitmask = read_word(bmp_header, 31);

} else { // no compression or short header means 5:5:5

self->r_bitmask = 0x7c00;

self->g_bitmask = 0x3e0;

self->b_bitmask = 0x1f;

}

} else if (self->bits_per_pixel <= 8) { // indexed

uint32_t number_of_colors = 0;

if (header_size >= 40) {

number_of_colors = read_word(bmp_header, 23);

}

if (number_of_colors == 0) {

number_of_colors = 1 << self->bits_per_pixel;

}

displayio_palette_t *palette = mp_obj_malloc(displayio_palette_t, &displayio_palette_type);

common_hal_displayio_palette_construct(palette, number_of_colors, false);

if (number_of_colors > 1) {

uint16_t palette_size = number_of_colors * sizeof(uint32_t);

uint16_t palette_offset = 0xe + header_size;

uint32_t *palette_data = m_malloc(palette_size);

f_rewind(&self->file->fp);

f_lseek(&self->file->fp, palette_offset);

UINT palette_bytes_read;

if (f_read(&self->file->fp, palette_data, palette_size, &palette_bytes_read) != FR_OK) {

mp_raise_OSError(MP_EIO);

}

if (palette_bytes_read != palette_size) {

mp_raise_ValueError(MP_ERROR_TEXT("Unable to read color palette data"));

}

for (uint16_t i = 0; i < number_of_colors; i++) {

common_hal_displayio_palette_set_color(palette, i, palette_data[i]);

}

#if MICROPY_MALLOC_USES_ALLOCATED_SIZE

m_free(palette_data, palette_size);

#else

m_free(palette_data);

#endif

} else {

common_hal_displayio_palette_set_color(palette, 0, 0x0);

common_hal_displayio_palette_set_color(palette, 1, 0xffffff);

}

self->palette = palette;

}

uint8_t bytes_per_pixel = (self->bits_per_pixel / 8) ? (self->bits_per_pixel / 8) : 1;

uint8_t pixels_per_byte = 8 / self->bits_per_pixel;

if (pixels_per_byte == 0) {

self->stride = (self->width * bytes_per_pixel);

// Rows are word aligned.

if (self->stride % 4 != 0) {

self->stride += 4 - self->stride % 4;

}

} else {

uint32_t bit_stride = self->width * self->bits_per_pixel;

if (bit_stride % 32 != 0) {

bit_stride += 32 - bit_stride % 32;

}

self->stride = (bit_stride / 8);

}

}

uint32_t common_hal_displayio_ondiskbitmap_get_pixel(displayio_ondiskbitmap_t *self,

int16_t x, int16_t y) {

if (x < 0 || x >= self->width || y < 0 || y >= self->height) {

return 0;

}

uint32_t location;

uint8_t bytes_per_pixel = (self->bits_per_pixel / 8) ? (self->bits_per_pixel / 8) : 1;

uint8_t pixels_per_byte = 8 / self->bits_per_pixel;

if (pixels_per_byte == 0) {

location = self->data_offset + (self->height - y - 1) * self->stride + x * bytes_per_pixel;

} else {

location = self->data_offset + (self->height - y - 1) * self->stride + x / pixels_per_byte;

}

// We don't cache here because the underlying FS caches sectors.

f_lseek(&self->file->fp, location);

UINT bytes_read;

uint32_t pixel_data = 0;

uint32_t result = f_read(&self->file->fp, &pixel_data, bytes_per_pixel, &bytes_read);

if (result == FR_OK) {

uint32_t tmp = 0;

uint8_t red;

uint8_t green;

uint8_t blue;

if (bytes_per_pixel == 1) {

uint8_t offset = (x % pixels_per_byte) * self->bits_per_pixel;

uint8_t mask = (1 << self->bits_per_pixel) - 1;

return (pixel_data >> ((8 - self->bits_per_pixel) - offset)) & mask;

} else if (bytes_per_pixel == 2) {

if (self->g_bitmask == 0x07e0) { // 565

red = ((pixel_data & self->r_bitmask) >> 11);

green = ((pixel_data & self->g_bitmask) >> 5);

blue = ((pixel_data & self->b_bitmask) >> 0);

} else { // 555

red = ((pixel_data & self->r_bitmask) >> 10);

green = ((pixel_data & self->g_bitmask) >> 4);

blue = ((pixel_data & self->b_bitmask) >> 0);

}

tmp = (red << 19 | green << 10 | blue << 3);

return tmp;

} else if ((bytes_per_pixel == 4) && (self->bitfield_compressed)) {

return pixel_data & 0x00FFFFFF;

} else {

return pixel_data;

}

}

return 0;

}

uint16_t common_hal_displayio_ondiskbitmap_get_height(displayio_ondiskbitmap_t *self) {

return self->height;

}

uint16_t common_hal_displayio_ondiskbitmap_get_width(displayio_ondiskbitmap_t *self) {

return self->width;

}

mp_obj_t common_hal_displayio_ondiskbitmap_get_pixel_shader(displayio_ondiskbitmap_t *self) {

return MP_OBJ_FROM_PTR(self->pixel_shader_base);

}