466 lines
17 KiB
C++
466 lines
17 KiB
C++
// Copyright 2010 Dolphin Emulator Project
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// SPDX-License-Identifier: GPL-2.0-or-later
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#pragma once
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#include <array>
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#include <filesystem>
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#include <fmt/format.h>
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#include <map>
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#include <memory>
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#include <optional>
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#include <string>
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#include <string_view>
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#include <tuple>
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#include <unordered_map>
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#include <unordered_set>
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#include <vector>
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#include "Common/BitSet.h"
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#include "Common/CommonTypes.h"
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#include "Common/Flag.h"
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#include "Common/MathUtil.h"
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#include "VideoCommon/AbstractTexture.h"
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#include "VideoCommon/Assets/CustomAsset.h"
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#include "VideoCommon/BPMemory.h"
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#include "VideoCommon/TextureConfig.h"
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#include "VideoCommon/TextureDecoder.h"
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#include "VideoCommon/TextureInfo.h"
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#include "VideoCommon/VideoEvents.h"
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class AbstractFramebuffer;
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class AbstractStagingTexture;
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class PointerWrap;
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struct VideoConfig;
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namespace VideoCommon
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{
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class CustomTextureData;
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class GameTextureAsset;
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} // namespace VideoCommon
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constexpr std::string_view EFB_DUMP_PREFIX = "efb1";
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constexpr std::string_view XFB_DUMP_PREFIX = "xfb1";
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static constexpr int FRAMECOUNT_INVALID = 0;
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struct TextureAndTLUTFormat
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{
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TextureAndTLUTFormat(TextureFormat texfmt_ = TextureFormat::I4,
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TLUTFormat tlutfmt_ = TLUTFormat::IA8)
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: texfmt(texfmt_), tlutfmt(tlutfmt_)
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{
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}
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bool operator==(const TextureAndTLUTFormat& other) const
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{
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if (IsColorIndexed(texfmt))
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return texfmt == other.texfmt && tlutfmt == other.tlutfmt;
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return texfmt == other.texfmt;
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}
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bool operator!=(const TextureAndTLUTFormat& other) const { return !operator==(other); }
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TextureFormat texfmt;
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TLUTFormat tlutfmt;
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};
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struct EFBCopyParams
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{
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EFBCopyParams(PixelFormat efb_format_, EFBCopyFormat copy_format_, bool depth_, bool yuv_,
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bool all_copy_filter_coefs_needed_, bool copy_filter_can_overflow_,
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bool apply_gamma_)
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: efb_format(efb_format_), copy_format(copy_format_), depth(depth_), yuv(yuv_),
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all_copy_filter_coefs_needed(all_copy_filter_coefs_needed_),
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copy_filter_can_overflow(copy_filter_can_overflow_), apply_gamma(apply_gamma_)
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{
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}
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bool operator<(const EFBCopyParams& rhs) const
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{
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return std::tie(efb_format, copy_format, depth, yuv, all_copy_filter_coefs_needed,
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copy_filter_can_overflow,
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apply_gamma) < std::tie(rhs.efb_format, rhs.copy_format, rhs.depth, rhs.yuv,
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rhs.all_copy_filter_coefs_needed,
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rhs.copy_filter_can_overflow, rhs.apply_gamma);
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}
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PixelFormat efb_format;
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EFBCopyFormat copy_format;
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bool depth;
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bool yuv;
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bool all_copy_filter_coefs_needed;
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bool copy_filter_can_overflow;
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bool apply_gamma;
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};
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template <>
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struct fmt::formatter<EFBCopyParams>
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{
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constexpr auto parse(format_parse_context& ctx) { return ctx.begin(); }
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template <typename FormatContext>
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auto format(const EFBCopyParams& uid, FormatContext& ctx) const
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{
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std::string copy_format;
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if (uid.copy_format == EFBCopyFormat::XFB)
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copy_format = "XFB";
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else
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copy_format = fmt::to_string(uid.copy_format);
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return fmt::format_to(ctx.out(),
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"format: {}, copy format: {}, depth: {}, yuv: {}, apply_gamma: {}, "
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"all_copy_filter_coefs_needed: {}, copy_filter_can_overflow: {}",
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uid.efb_format, copy_format, uid.depth, uid.yuv, uid.apply_gamma,
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uid.all_copy_filter_coefs_needed, uid.copy_filter_can_overflow);
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}
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};
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struct TCacheEntry
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{
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// common members
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std::unique_ptr<AbstractTexture> texture;
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std::unique_ptr<AbstractFramebuffer> framebuffer;
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u32 addr = 0;
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u32 size_in_bytes = 0;
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u64 base_hash = 0;
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u64 hash = 0; // for paletted textures, hash = base_hash ^ palette_hash
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TextureAndTLUTFormat format;
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u32 memory_stride = 0;
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bool is_efb_copy = false;
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bool is_custom_tex = false;
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bool may_have_overlapping_textures = true;
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// indicates that the mips in this texture are arbitrary content, aren't just downscaled
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bool has_arbitrary_mips = false;
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bool should_force_safe_hashing = false; // for XFB
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bool is_xfb_copy = false;
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bool is_xfb_container = false;
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u64 id = 0;
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u32 content_semaphore = 0; // Counts up
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// Indicates that this TCacheEntry has been invalided from m_textures_by_address
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bool invalidated = false;
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bool reference_changed = false; // used by xfb to determine when a reference xfb changed
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// Texture dimensions from the GameCube's point of view
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u32 native_width = 0;
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u32 native_height = 0;
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u32 native_levels = 0;
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// used to delete textures which haven't been used for TEXTURE_KILL_THRESHOLD frames
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int frameCount = FRAMECOUNT_INVALID;
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// Keep an iterator to the entry in m_textures_by_hash, so it does not need to be searched when
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// removing the cache entry
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std::multimap<u64, std::shared_ptr<TCacheEntry>>::iterator textures_by_hash_iter;
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// This is used to keep track of both:
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// * efb copies used by this partially updated texture
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// * partially updated textures which refer to this efb copy
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std::unordered_set<TCacheEntry*> references;
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// Pending EFB copy
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std::unique_ptr<AbstractStagingTexture> pending_efb_copy;
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u32 pending_efb_copy_width = 0;
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u32 pending_efb_copy_height = 0;
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std::string texture_info_name = "";
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std::vector<VideoCommon::CachedAsset<VideoCommon::GameTextureAsset>> linked_game_texture_assets;
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std::vector<VideoCommon::CachedAsset<VideoCommon::CustomAsset>> linked_asset_dependencies;
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explicit TCacheEntry(std::unique_ptr<AbstractTexture> tex,
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std::unique_ptr<AbstractFramebuffer> fb);
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~TCacheEntry();
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void SetGeneralParameters(u32 _addr, u32 _size, TextureAndTLUTFormat _format,
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bool force_safe_hashing)
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{
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addr = _addr;
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size_in_bytes = _size;
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format = _format;
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should_force_safe_hashing = force_safe_hashing;
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}
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void SetDimensions(unsigned int _native_width, unsigned int _native_height,
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unsigned int _native_levels)
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{
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native_width = _native_width;
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native_height = _native_height;
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native_levels = _native_levels;
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memory_stride = _native_width;
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}
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void SetHashes(u64 _base_hash, u64 _hash)
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{
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base_hash = _base_hash;
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hash = _hash;
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}
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// This texture entry is used by the other entry as a sub-texture
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void CreateReference(TCacheEntry* other_entry)
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{
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// References are two-way, so they can easily be destroyed later
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this->references.emplace(other_entry);
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other_entry->references.emplace(this);
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}
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// Acquiring a content lock will lock the current contents and prevent texture cache from
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// reusing the same entry for a newer version of the texture.
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void AcquireContentLock() { content_semaphore++; }
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void ReleaseContentLock() { content_semaphore--; }
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// Can this be mutated?
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bool IsLocked() const { return content_semaphore > 0; }
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void SetXfbCopy(u32 stride);
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void SetEfbCopy(u32 stride);
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void SetNotCopy();
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bool OverlapsMemoryRange(u32 range_address, u32 range_size) const;
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bool IsEfbCopy() const { return is_efb_copy; }
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bool IsCopy() const { return is_xfb_copy || is_efb_copy; }
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u32 NumBlocksX() const;
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u32 NumBlocksY() const;
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u32 BytesPerRow() const;
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u64 CalculateHash() const;
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int HashSampleSize() const;
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u32 GetWidth() const { return texture->GetConfig().width; }
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u32 GetHeight() const { return texture->GetConfig().height; }
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u32 GetNumLevels() const { return texture->GetConfig().levels; }
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u32 GetNumLayers() const { return texture->GetConfig().layers; }
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AbstractTextureFormat GetFormat() const { return texture->GetConfig().format; }
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void DoState(PointerWrap& p);
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};
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using RcTcacheEntry = std::shared_ptr<TCacheEntry>;
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class TextureCacheBase
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{
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public:
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// Minimal version of TCacheEntry just for TexPool
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struct TexPoolEntry
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{
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std::unique_ptr<AbstractTexture> texture;
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std::unique_ptr<AbstractFramebuffer> framebuffer;
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int frameCount = FRAMECOUNT_INVALID;
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TexPoolEntry(std::unique_ptr<AbstractTexture> tex, std::unique_ptr<AbstractFramebuffer> fb);
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};
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struct TextureCreationInfo
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{
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u64 base_hash;
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u64 full_hash;
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u32 bytes_per_block;
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u32 palette_size;
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};
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TextureCacheBase();
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virtual ~TextureCacheBase();
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bool Initialize();
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void Shutdown();
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void OnConfigChanged(const VideoConfig& config);
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// Removes textures which aren't used for more than TEXTURE_KILL_THRESHOLD frames,
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// frameCount is the current frame number.
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void Cleanup(int _frameCount);
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void Invalidate();
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void ReleaseToPool(TCacheEntry* entry);
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TCacheEntry* Load(const TextureInfo& texture_info);
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RcTcacheEntry GetTexture(const int textureCacheSafetyColorSampleSize,
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const TextureInfo& texture_info);
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RcTcacheEntry GetXFBTexture(u32 address, u32 width, u32 height, u32 stride,
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MathUtil::Rectangle<int>* display_rect);
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virtual void BindTextures(BitSet32 used_textures);
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void CopyRenderTargetToTexture(u32 dstAddr, EFBCopyFormat dstFormat, u32 width, u32 height,
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u32 dstStride, bool is_depth_copy,
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const MathUtil::Rectangle<int>& srcRect, bool isIntensity,
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bool scaleByHalf, float y_scale, float gamma, bool clamp_top,
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bool clamp_bottom,
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const CopyFilterCoefficients::Values& filter_coefficients);
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void ScaleTextureCacheEntryTo(RcTcacheEntry& entry, u32 new_width, u32 new_height);
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// Flushes all pending EFB copies to emulated RAM.
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void FlushEFBCopies();
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// Flush any Bound textures that can't be reused
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void FlushStaleBinds();
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// Texture Serialization
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void SerializeTexture(AbstractTexture* tex, const TextureConfig& config, PointerWrap& p);
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std::optional<TexPoolEntry> DeserializeTexture(PointerWrap& p);
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// Save States
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void DoState(PointerWrap& p);
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static bool AllCopyFilterCoefsNeeded(const std::array<u32, 3>& coefficients);
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static bool CopyFilterCanOverflow(const std::array<u32, 3>& coefficients);
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protected:
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// Decodes the specified data to the GPU texture specified by entry.
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// Returns false if the configuration is not supported.
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// width, height are the size of the image in pixels.
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// aligned_width, aligned_height are the size of the image in pixels, aligned to the block size.
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// row_stride is the number of bytes for a row of blocks, not pixels.
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bool DecodeTextureOnGPU(RcTcacheEntry& entry, u32 dst_level, const u8* data, u32 data_size,
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TextureFormat format, u32 width, u32 height, u32 aligned_width,
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u32 aligned_height, u32 row_stride, const u8* palette,
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TLUTFormat palette_format);
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virtual void CopyEFB(AbstractStagingTexture* dst, const EFBCopyParams& params, u32 native_width,
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u32 bytes_per_row, u32 num_blocks_y, u32 memory_stride,
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const MathUtil::Rectangle<int>& src_rect, bool scale_by_half,
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bool linear_filter, float y_scale, float gamma, bool clamp_top,
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bool clamp_bottom, const std::array<u32, 3>& filter_coefficients);
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virtual void CopyEFBToCacheEntry(RcTcacheEntry& entry, bool is_depth_copy,
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const MathUtil::Rectangle<int>& src_rect, bool scale_by_half,
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bool linear_filter, EFBCopyFormat dst_format, bool is_intensity,
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float gamma, bool clamp_top, bool clamp_bottom,
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const std::array<u32, 3>& filter_coefficients);
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alignas(16) u8* m_temp = nullptr;
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size_t m_temp_size = 0;
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private:
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using TexAddrCache = std::multimap<u32, RcTcacheEntry>;
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using TexHashCache = std::multimap<u64, RcTcacheEntry>;
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using TexPool = std::unordered_multimap<TextureConfig, TexPoolEntry>;
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static bool DidLinkedAssetsChange(const TCacheEntry& entry);
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TCacheEntry* LoadImpl(const TextureInfo& texture_info, bool force_reload);
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bool CreateUtilityTextures();
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void SetBackupConfig(const VideoConfig& config);
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RcTcacheEntry
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CreateTextureEntry(const TextureCreationInfo& creation_info, const TextureInfo& texture_info,
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int safety_color_sample_size,
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std::vector<std::shared_ptr<VideoCommon::TextureData>> assets_data,
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bool custom_arbitrary_mipmaps, bool skip_texture_dump);
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RcTcacheEntry GetXFBFromCache(u32 address, u32 width, u32 height, u32 stride);
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RcTcacheEntry ApplyPaletteToEntry(RcTcacheEntry& entry, const u8* palette, TLUTFormat tlutfmt);
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RcTcacheEntry ReinterpretEntry(const RcTcacheEntry& existing_entry, TextureFormat new_format);
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RcTcacheEntry DoPartialTextureUpdates(RcTcacheEntry& entry_to_update, const u8* palette,
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TLUTFormat tlutfmt);
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void StitchXFBCopy(RcTcacheEntry& entry_to_update);
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void CheckTempSize(size_t required_size);
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RcTcacheEntry AllocateCacheEntry(const TextureConfig& config);
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std::optional<TexPoolEntry> AllocateTexture(const TextureConfig& config);
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TexPool::iterator FindMatchingTextureFromPool(const TextureConfig& config);
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TexAddrCache::iterator GetTexCacheIter(TCacheEntry* entry);
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// Return all possible overlapping textures. As addr+size of the textures is not
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// indexed, this may return false positives.
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std::pair<TexAddrCache::iterator, TexAddrCache::iterator>
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FindOverlappingTextures(u32 addr, u32 size_in_bytes);
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// Removes and unlinks texture from texture cache and returns it to the pool
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TexAddrCache::iterator InvalidateTexture(TexAddrCache::iterator t_iter,
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bool discard_pending_efb_copy = false);
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void UninitializeEFBMemory(u8* dst, u32 stride, u32 bytes_per_row, u32 num_blocks_y);
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void UninitializeXFBMemory(u8* dst, u32 stride, u32 bytes_per_row, u32 num_blocks_y);
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// Precomputing the coefficients for the previous, current, and next lines for the copy filter.
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static std::array<u32, 3>
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GetRAMCopyFilterCoefficients(const CopyFilterCoefficients::Values& coefficients);
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static std::array<u32, 3>
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GetVRAMCopyFilterCoefficients(const CopyFilterCoefficients::Values& coefficients);
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// Flushes a pending EFB copy to RAM from the host to the guest RAM.
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void WriteEFBCopyToRAM(u8* dst_ptr, u32 width, u32 height, u32 stride,
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std::unique_ptr<AbstractStagingTexture> staging_texture);
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void FlushEFBCopy(TCacheEntry* entry);
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// Returns a staging texture of the maximum EFB copy size.
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std::unique_ptr<AbstractStagingTexture> GetEFBCopyStagingTexture();
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// Returns an EFB copy staging texture to the pool, so it can be re-used.
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void ReleaseEFBCopyStagingTexture(std::unique_ptr<AbstractStagingTexture> tex);
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bool CheckReadbackTexture(u32 width, u32 height, AbstractTextureFormat format);
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void DoSaveState(PointerWrap& p);
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void DoLoadState(PointerWrap& p);
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// m_textures_by_address is the authoritive version of what's actually "in" the texture cache
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// but it's possible for invalidated TCache entries to live on elsewhere
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TexAddrCache m_textures_by_address;
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// m_textures_by_hash is an alternative view of the texture cache
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// All textures in here will also be in m_textures_by_address
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TexHashCache m_textures_by_hash;
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// m_bound_textures are actually active in the current draw
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// It's valid for textures to be in here after they've been invalidated
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std::array<RcTcacheEntry, 8> m_bound_textures{};
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TexPool m_texture_pool;
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u64 m_last_entry_id = 0;
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// Backup configuration values
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struct BackupConfig
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{
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int color_samples;
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bool texfmt_overlay;
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bool texfmt_overlay_center;
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bool hires_textures;
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bool cache_hires_textures;
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bool copy_cache_enable;
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bool stereo_3d;
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bool efb_mono_depth;
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bool gpu_texture_decoding;
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bool disable_vram_copies;
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bool arbitrary_mipmap_detection;
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bool graphics_mods;
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u32 graphics_mod_change_count;
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};
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BackupConfig m_backup_config = {};
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// Encoding texture used for EFB copies to RAM.
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std::unique_ptr<AbstractTexture> m_efb_encoding_texture;
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std::unique_ptr<AbstractFramebuffer> m_efb_encoding_framebuffer;
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// Decoding texture used for GPU texture decoding.
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std::unique_ptr<AbstractTexture> m_decoding_texture;
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// Pool of readback textures used for deferred EFB copies.
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std::vector<std::unique_ptr<AbstractStagingTexture>> m_efb_copy_staging_texture_pool;
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// List of pending EFB copies. It is important that the order is preserved for these,
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// so that overlapping textures are written to guest RAM in the order they are issued.
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// It's valid for textures to live be in here after they've been invalidated
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std::vector<RcTcacheEntry> m_pending_efb_copies;
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// Staging texture used for readbacks.
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// We store this in the class so that the same staging texture can be used for multiple
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// readbacks, saving the overhead of allocating a new buffer every time.
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std::unique_ptr<AbstractStagingTexture> m_readback_texture;
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void OnFrameEnd();
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Common::EventHook m_frame_event =
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AfterFrameEvent::Register([this](Core::System&) { OnFrameEnd(); }, "TextureCache");
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};
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extern std::unique_ptr<TextureCacheBase> g_texture_cache;
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