mirror of
https://github.com/Ninjdai1/pokeemerald.git
synced 2024-11-18 04:27:38 +01:00
396 lines
12 KiB
C
396 lines
12 KiB
C
#include "global.h"
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#include "malloc.h"
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#include "data.h"
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#include "decompress.h"
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#include "pokemon.h"
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#include "text.h"
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#include "constants/species.h"
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EWRAM_DATA ALIGNED(4) u8 gDecompressionBuffer[0x4000] = {0};
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static void DuplicateDeoxysTiles(void *pointer, s32 species);
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void LZDecompressWram(const u32 *src, void *dest)
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{
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LZ77UnCompWram(src, dest);
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}
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void LZDecompressVram(const u32 *src, void *dest)
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{
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LZ77UnCompVram(src, dest);
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}
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u16 LoadCompressedSpriteSheet(const struct CompressedSpriteSheet *src)
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{
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struct SpriteSheet dest;
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LZ77UnCompWram(src->data, gDecompressionBuffer);
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dest.data = gDecompressionBuffer;
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dest.size = src->size;
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dest.tag = src->tag;
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return LoadSpriteSheet(&dest);
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}
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void LoadCompressedSpriteSheetOverrideBuffer(const struct CompressedSpriteSheet *src, void *buffer)
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{
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struct SpriteSheet dest;
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LZ77UnCompWram(src->data, buffer);
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dest.data = buffer;
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dest.size = src->size;
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dest.tag = src->tag;
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LoadSpriteSheet(&dest);
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}
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void LoadCompressedSpritePalette(const struct CompressedSpritePalette *src)
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{
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struct SpritePalette dest;
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LZ77UnCompWram(src->data, gDecompressionBuffer);
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dest.data = (void*) gDecompressionBuffer;
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dest.tag = src->tag;
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LoadSpritePalette(&dest);
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}
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void LoadCompressedSpritePaletteOverrideBuffer(const struct CompressedSpritePalette *a, void *buffer)
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{
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struct SpritePalette dest;
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LZ77UnCompWram(a->data, buffer);
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dest.data = buffer;
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dest.tag = a->tag;
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LoadSpritePalette(&dest);
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}
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void DecompressPicFromTable(const struct CompressedSpriteSheet *src, void* buffer, s32 species)
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{
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if (species > NUM_SPECIES)
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LZ77UnCompWram(gMonFrontPicTable[0].data, buffer);
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else
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LZ77UnCompWram(src->data, buffer);
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DuplicateDeoxysTiles(buffer, species);
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}
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void HandleLoadSpecialPokePic(const struct CompressedSpriteSheet *src, void *dest, s32 species, u32 personality)
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{
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bool8 isFrontPic;
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if (src == &gMonFrontPicTable[species])
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isFrontPic = TRUE; // frontPic
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else
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isFrontPic = FALSE; // backPic
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LoadSpecialPokePic_2(src, dest, species, personality, isFrontPic);
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}
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void LoadSpecialPokePic(const struct CompressedSpriteSheet *src, void *dest, s32 species, u32 personality, bool8 isFrontPic)
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{
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if (species == SPECIES_UNOWN)
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{
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u16 i = (((personality & 0x3000000) >> 18) | ((personality & 0x30000) >> 12) | ((personality & 0x300) >> 6) | (personality & 3)) % 0x1C;
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// The other Unowns are separate from Unown A.
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if (i == 0)
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i = SPECIES_UNOWN;
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else
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i += SPECIES_UNOWN_B - 1;
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if (!isFrontPic)
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LZ77UnCompWram(gMonBackPicTable[i].data, dest);
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else
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LZ77UnCompWram(gMonFrontPicTable[i].data, dest);
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}
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else if (species > NUM_SPECIES) // is species unknown? draw the ? icon
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LZ77UnCompWram(gMonFrontPicTable[0].data, dest);
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else
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LZ77UnCompWram(src->data, dest);
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DuplicateDeoxysTiles(dest, species);
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DrawSpindaSpots(species, personality, dest, isFrontPic);
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}
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void Unused_LZDecompressWramIndirect(const void **src, void *dest)
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{
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LZ77UnCompWram(*src, dest);
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}
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void sub_803471C(s32 object_size, s32 object_count, u8 *src_tiles, u8 *dest_tiles)
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{
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/*
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This function appears to emulate behaviour found in the GB(C) versions regarding how the Pokemon images
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are stitched together to be displayed on the battle screen.
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Given "compacted" tiles, an object count and a bounding box/object size, place the tiles in such a way
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that the result will have each object centered in a 8x8 tile canvas.
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*/
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s32 i, j, k, l;
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u8 *src = src_tiles, *dest = dest_tiles;
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u8 bottom_off;
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if (object_size & 1)
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{
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// Object size is odd
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bottom_off = (object_size >> 1) + 4;
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for (l = 0; l < object_count; l++)
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{
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// Clear all unused rows of tiles plus the half-tile required due to centering
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for (j = 0; j < 8-object_size; j++)
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{
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for (k = 0; k < 8; k++)
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{
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for (i = 0; i < 16; i++)
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{
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if (j % 2 == 0)
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{
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// Clear top half of top tile and bottom half of bottom tile when on even j
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((dest+i) + (k << 5))[((j >> 1) << 8)] = 0;
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((bottom_off << 8) + (dest+i) + (k << 5) + 16)[((j >> 1) << 8)] = 0;
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}
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else
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{
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// Clear bottom half of top tile and top half of tile following bottom tile when on odd j
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((dest+i) + (k << 5) + 16)[((j >> 1) << 8)] = 0;
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((bottom_off << 8) + (dest+i) + (k << 5) + 256)[((j >> 1) << 8)] = 0;
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}
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}
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}
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}
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// Clear the columns to the left and right that wont be used completely
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// Unlike the previous loops, this will clear the later used space as well
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for (j = 0; j < 2; j++)
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{
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for (i = 0; i < 8; i++)
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{
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for (k = 0; k < 32; k++)
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{
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// Left side
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((dest+k) + (i << 8))[(j << 5)] = 0;
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// Right side
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((dest+k) + (i << 8))[(j << 5)+192] = 0;
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}
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}
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}
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// Skip the top row and first tile on the second row for objects of size 5
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if (object_size == 5) dest += 0x120;
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// Copy tile data
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for (j = 0; j < object_size; j++)
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{
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for (k = 0; k < object_size; k++)
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{
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for (i = 0; i < 4; i++)
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{
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// Offset the tile by +4px in both x and y directions
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(dest + (i << 2))[18] = (src + (i << 2))[0];
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(dest + (i << 2))[19] = (src + (i << 2))[1];
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(dest + (i << 2))[48] = (src + (i << 2))[2];
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(dest + (i << 2))[49] = (src + (i << 2))[3];
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(dest + (i << 2))[258] = (src + (i << 2))[16];
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(dest + (i << 2))[259] = (src + (i << 2))[17];
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(dest + (i << 2))[288] = (src + (i << 2))[18];
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(dest + (i << 2))[289] = (src + (i << 2))[19];
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}
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src += 32;
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dest += 32;
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}
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// At the end of a row, skip enough tiles to get to the beginning of the next row
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if (object_size == 7) dest += 0x20;
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else if (object_size == 5) dest += 0x60;
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}
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// Skip remaining unused space to go to the beginning of the next object
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if (object_size == 7) dest += 0x100;
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else if (object_size == 5) dest += 0x1e0;
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}
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}
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else
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{
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// Object size is even
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for (i = 0; i < object_count; i++)
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{
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// For objects of size 6, the first and last row and column will be cleared
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// While the remaining space will be filled with actual data
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if (object_size == 6)
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{
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for (k = 0; k < 256; k++) {
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*dest = 0;
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dest++;
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}
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}
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for (j = 0; j < object_size; j++)
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{
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if (object_size == 6)
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{
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for (k = 0; k < 32; k++) {
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*dest = 0;
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dest++;
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}
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}
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// Copy tile data
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for (k = 0; k < 32 * object_size; k++) {
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*dest = *src;
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src++;
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dest++;
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}
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if (object_size == 6)
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{
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for (k = 0; k < 32; k++) {
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*dest = 0;
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dest++;
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}
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}
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}
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if (object_size == 6)
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{
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for (k = 0; k < 256; k++) {
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*dest = 0;
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dest++;
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}
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}
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}
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}
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}
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u32 GetDecompressedDataSize(const u32 *ptr)
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{
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const u8 *ptr8 = (const u8 *)ptr;
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return (ptr8[3] << 16) | (ptr8[2] << 8) | (ptr8[1]);
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}
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bool8 LoadCompressedSpriteSheetUsingHeap(const struct CompressedSpriteSheet* src)
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{
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struct SpriteSheet dest;
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void* buffer;
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buffer = AllocZeroed(*((u32*)(&src->data[0])) >> 8);
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LZ77UnCompWram(src->data, buffer);
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dest.data = buffer;
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dest.size = src->size;
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dest.tag = src->tag;
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LoadSpriteSheet(&dest);
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Free(buffer);
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return FALSE;
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}
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bool8 LoadCompressedSpritePaletteUsingHeap(const struct CompressedSpritePalette *src)
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{
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struct SpritePalette dest;
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void* buffer;
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buffer = AllocZeroed(*((u32*)(&src->data[0])) >> 8);
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LZ77UnCompWram(src->data, buffer);
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dest.data = buffer;
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dest.tag = src->tag;
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LoadSpritePalette(&dest);
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Free(buffer);
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return FALSE;
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}
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void DecompressPicFromTable_2(const struct CompressedSpriteSheet *src, void* buffer, s32 species) // a copy of DecompressPicFromTable
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{
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if (species > NUM_SPECIES)
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LZ77UnCompWram(gMonFrontPicTable[0].data, buffer);
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else
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LZ77UnCompWram(src->data, buffer);
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DuplicateDeoxysTiles(buffer, species);
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}
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void LoadSpecialPokePic_2(const struct CompressedSpriteSheet *src, void *dest, s32 species, u32 personality, bool8 isFrontPic) // a copy of LoadSpecialPokePic
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{
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if (species == SPECIES_UNOWN)
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{
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u16 i = (((personality & 0x3000000) >> 18) | ((personality & 0x30000) >> 12) | ((personality & 0x300) >> 6) | (personality & 3)) % 0x1C;
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// The other Unowns are separate from Unown A.
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if (i == 0)
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i = SPECIES_UNOWN;
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else
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i += SPECIES_UNOWN_B - 1;
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if (!isFrontPic)
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LZ77UnCompWram(gMonBackPicTable[i].data, dest);
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else
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LZ77UnCompWram(gMonFrontPicTable[i].data, dest);
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}
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else if (species > NUM_SPECIES) // is species unknown? draw the ? icon
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LZ77UnCompWram(gMonFrontPicTable[0].data, dest);
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else
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LZ77UnCompWram(src->data, dest);
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DuplicateDeoxysTiles(dest, species);
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DrawSpindaSpots(species, personality, dest, isFrontPic);
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}
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void HandleLoadSpecialPokePic_2(const struct CompressedSpriteSheet *src, void *dest, s32 species, u32 personality) // a copy of HandleLoadSpecialPokePic
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{
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bool8 isFrontPic;
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if (src == &gMonFrontPicTable[species])
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isFrontPic = TRUE; // frontPic
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else
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isFrontPic = FALSE; // backPic
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LoadSpecialPokePic_2(src, dest, species, personality, isFrontPic);
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}
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void DecompressPicFromTable_DontHandleDeoxys(const struct CompressedSpriteSheet *src, void* buffer, s32 species)
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{
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if (species > NUM_SPECIES)
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LZ77UnCompWram(gMonFrontPicTable[0].data, buffer);
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else
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LZ77UnCompWram(src->data, buffer);
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}
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void HandleLoadSpecialPokePic_DontHandleDeoxys(const struct CompressedSpriteSheet *src, void *dest, s32 species, u32 personality)
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{
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bool8 isFrontPic;
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if (src == &gMonFrontPicTable[species])
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isFrontPic = TRUE; // frontPic
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else
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isFrontPic = FALSE; // backPic
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LoadSpecialPokePic_DontHandleDeoxys(src, dest, species, personality, isFrontPic);
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}
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void LoadSpecialPokePic_DontHandleDeoxys(const struct CompressedSpriteSheet *src, void *dest, s32 species, u32 personality, bool8 isFrontPic)
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{
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if (species == SPECIES_UNOWN)
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{
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u16 i = (((personality & 0x3000000) >> 18) | ((personality & 0x30000) >> 12) | ((personality & 0x300) >> 6) | (personality & 3)) % 0x1C;
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// The other Unowns are separate from Unown A.
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if (i == 0)
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i = SPECIES_UNOWN;
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else
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i += SPECIES_UNOWN_B - 1;
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if (!isFrontPic)
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LZ77UnCompWram(gMonBackPicTable[i].data, dest);
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else
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LZ77UnCompWram(gMonFrontPicTable[i].data, dest);
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}
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else if (species > NUM_SPECIES) // is species unknown? draw the ? icon
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LZ77UnCompWram(gMonFrontPicTable[0].data, dest);
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else
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LZ77UnCompWram(src->data, dest);
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DrawSpindaSpots(species, personality, dest, isFrontPic);
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}
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static void DuplicateDeoxysTiles(void *pointer, s32 species)
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{
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if (species == SPECIES_DEOXYS)
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CpuCopy32(pointer + 0x800, pointer, 0x800);
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}
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