winamp/Src/external_dependencies/openmpt-trunk/soundlib/ModSequence.h

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/*
* ModSequence.h
* -------------
* Purpose: Order and sequence handling.
* Notes : (currently none)
* Authors: OpenMPT Devs
* The OpenMPT source code is released under the BSD license. Read LICENSE for more details.
*/
#pragma once
#include "openmpt/all/BuildSettings.hpp"
#include "Snd_defs.h"
#include <algorithm>
#include <vector>
OPENMPT_NAMESPACE_BEGIN
class CPattern;
class CSoundFile;
class ModSequenceSet;
class ModSequence: public std::vector<PATTERNINDEX>
{
friend class ModSequenceSet;
protected:
mpt::ustring m_name; // Sequence name
CSoundFile &m_sndFile; // Associated CSoundFile
ORDERINDEX m_restartPos = 0; // Restart position when playback of this order ended
public:
ModSequence(CSoundFile &sndFile);
ModSequence(ModSequence &&) noexcept = default;
ModSequence(const ModSequence &) = default;
ModSequence& operator=(const ModSequence &other);
bool operator==(const ModSequence &other) const;
bool operator!=(const ModSequence &other) const { return !(*this == other); }
ORDERINDEX GetLength() const { return mpt::saturate_cast<ORDERINDEX>(size()); }
// Returns last accessible index, i.e. GetLength() - 1, or 0 if the order list is empty.
ORDERINDEX GetLastIndex() const { return std::max(ORDERINDEX(1), GetLength()) - 1u; }
// Returns length of sequence without counting trailing '---' items.
ORDERINDEX GetLengthTailTrimmed() const;
// Returns length of sequence stopping counting on first '---' (or at the end of sequence).
ORDERINDEX GetLengthFirstEmpty() const;
// Replaces order list with 'newSize' copies of 'pat'.
void assign(ORDERINDEX newSize, PATTERNINDEX pat);
// Inserts 'count' orders starting from 'pos' using 'fill' as the pattern index for all inserted orders.
// Sequence will automatically grow if needed and if it can't grow enough, some tail orders will be discarded.
// Return: Number of orders inserted (up to 'count' many).
ORDERINDEX insert(ORDERINDEX pos, ORDERINDEX count) { return insert(pos, count, GetInvalidPatIndex()); }
ORDERINDEX insert(ORDERINDEX pos, ORDERINDEX count, PATTERNINDEX fill);
void push_back() { push_back(GetInvalidPatIndex()); }
void push_back(PATTERNINDEX pat) { if(GetLength() < MAX_ORDERS) std::vector<PATTERNINDEX>::push_back(pat); }
void resize(ORDERINDEX newSize) { resize(newSize, GetInvalidPatIndex()); }
void resize(ORDERINDEX newSize, PATTERNINDEX pat) { std::vector<PATTERNINDEX>::resize(std::min(MAX_ORDERS, newSize), pat); }
// Removes orders from range [posBegin, posEnd].
void Remove(ORDERINDEX posBegin, ORDERINDEX posEnd);
// Remove all references to a given pattern index from the order list. Jump commands are updated accordingly.
void RemovePattern(PATTERNINDEX pat);
// Replaces all occurences of oldPat with newPat.
void Replace(PATTERNINDEX oldPat, PATTERNINDEX newPat) { if(oldPat != newPat) std::replace(begin(), end(), oldPat, newPat); }
// Removes any "---" patterns at the end of the list.
void Shrink() { resize(GetLengthTailTrimmed()); }
// Check if pattern at sequence position ord is valid.
bool IsValidPat(ORDERINDEX ord) const;
CPattern *PatternAt(ORDERINDEX ord) const;
void AdjustToNewModType(const MODTYPE oldtype);
// Returns the internal representation of a stop '---' index
static constexpr PATTERNINDEX GetInvalidPatIndex() { return uint16_max; }
// Returns the internal representation of an ignore '+++' index
static constexpr PATTERNINDEX GetIgnoreIndex() { return uint16_max - 1; }
// Returns the previous/next order ignoring skip indices (+++).
// If no previous/next order exists, return first/last order, and zero
// when orderlist is empty.
ORDERINDEX GetPreviousOrderIgnoringSkips(const ORDERINDEX start) const;
ORDERINDEX GetNextOrderIgnoringSkips(const ORDERINDEX start) const;
// Find an order item that contains a given pattern number.
ORDERINDEX FindOrder(PATTERNINDEX pat, ORDERINDEX startSearchAt = 0, bool searchForward = true) const;
// Ensures that the pattern at the specified order position is used only once (across all sequences).
// If another usage is found, the pattern is replaced by a copy and the new index is returned.
PATTERNINDEX EnsureUnique(ORDERINDEX ord);
#ifndef MODPLUG_NO_FILESAVE
// Write order items as bytes. '---' is written as stopIndex, '+++' is written as ignoreIndex
size_t WriteAsByte(std::ostream &f, const ORDERINDEX count, uint8 stopIndex = 0xFF, uint8 ignoreIndex = 0xFE) const;
#endif // MODPLUG_NO_FILESAVE
// Returns true if the IT orderlist datafield is not sufficient to store orderlist information.
bool NeedsExtraDatafield() const;
#ifdef MODPLUG_TRACKER
// Check if a playback position is currently locked (inaccessible)
bool IsPositionLocked(ORDERINDEX position) const;
// Check if this sequence has subsongs separated by invalid ("---" or non-existing) patterns
bool HasSubsongs() const;
#endif // MODPLUG_TRACKER
// Sequence name setter / getter
inline void SetName(const mpt::ustring &newName) { m_name = newName;}
inline mpt::ustring GetName() const { return m_name; }
// Restart position setter / getter
inline void SetRestartPos(ORDERINDEX restartPos) noexcept { m_restartPos = restartPos; }
inline ORDERINDEX GetRestartPos() const noexcept { return m_restartPos; }
};
class ModSequenceSet
{
friend void ReadModSequenceOld(std::istream& iStrm, ModSequenceSet& seq, const size_t);
friend void ReadModSequences(std::istream& iStrm, ModSequenceSet& seq, const size_t, mpt::Charset defaultCharset);
protected:
std::vector<ModSequence> m_Sequences; // Array of sequences
CSoundFile &m_sndFile;
SEQUENCEINDEX m_currentSeq = 0; // Index of current sequence.
public:
ModSequenceSet(CSoundFile &sndFile);
ModSequenceSet(ModSequenceSet &&) noexcept = default;
// Remove all sequences and initialize default sequence
void Initialize();
// Get the working sequence
ModSequence& operator() () { return m_Sequences[m_currentSeq]; }
const ModSequence& operator() () const { return m_Sequences[m_currentSeq]; }
// Get an arbitrary sequence
ModSequence& operator() (SEQUENCEINDEX seq) { return m_Sequences[seq]; }
const ModSequence& operator() (SEQUENCEINDEX seq) const { return m_Sequences[seq]; }
SEQUENCEINDEX GetNumSequences() const { return static_cast<SEQUENCEINDEX>(m_Sequences.size()); }
SEQUENCEINDEX GetCurrentSequenceIndex() const { return m_currentSeq; }
// Sets working sequence.
void SetSequence(SEQUENCEINDEX);
// Add new empty sequence.
// Returns the ID of the new sequence, or SEQUENCEINDEX_INVALID on failure.
SEQUENCEINDEX AddSequence();
// Removes given sequence.
void RemoveSequence(SEQUENCEINDEX);
// Returns the internal representation of a stop '---' index
static constexpr PATTERNINDEX GetInvalidPatIndex() { return ModSequence::GetInvalidPatIndex(); }
// Returns the internal representation of an ignore '+++' index
static constexpr PATTERNINDEX GetIgnoreIndex() { return ModSequence::GetIgnoreIndex(); }
#ifdef MODPLUG_TRACKER
// Assigns a new set of sequences. The vector contents indicate which existing sequences to keep / duplicate or if a new sequences should be inserted (SEQUENCEINDEX_INVALID)
// The function fails if the vector is empty or contains too many sequences.
bool Rearrange(const std::vector<SEQUENCEINDEX> &newOrder);
// Adjust sequence when converting between module formats
void OnModTypeChanged(MODTYPE oldType);
// Check if there is a single sequences that qualifies for subsong splitting
bool CanSplitSubsongs() const;
// If there are subsongs (separated by "---" patterns) in the module,
// asks user whether to convert these into multiple sequences (given that the
// modformat supports multiple sequences).
// Returns true if sequences were modified, false otherwise.
bool SplitSubsongsToMultipleSequences();
// Convert the sequence's restart position information to a pattern command.
bool RestartPosToPattern(SEQUENCEINDEX seq);
// Merges multiple sequences into one and destroys all other sequences.
// Returns false if there were no sequences to merge, true otherwise.
bool MergeSequences();
#endif // MODPLUG_TRACKER
std::vector<ModSequence>::iterator begin() { return m_Sequences.begin(); }
std::vector<ModSequence>::const_iterator begin() const { return m_Sequences.begin(); }
std::vector<ModSequence>::const_iterator cbegin() const { return m_Sequences.cbegin(); }
std::vector<ModSequence>::iterator end() { return m_Sequences.end(); }
std::vector<ModSequence>::const_iterator end() const { return m_Sequences.end(); }
std::vector<ModSequence>::const_iterator cend() const { return m_Sequences.cend(); }
};
const char FileIdSequences[] = "mptSeqC";
const char FileIdSequence[] = "mptSeq";
#ifndef MODPLUG_NO_FILESAVE
void WriteModSequences(std::ostream& oStrm, const ModSequenceSet& seq);
#endif // MODPLUG_NO_FILESAVE
void ReadModSequences(std::istream& iStrm, ModSequenceSet& seq, const size_t nSize, mpt::Charset defaultCharset);
#ifndef MODPLUG_NO_FILESAVE
void WriteModSequence(std::ostream& oStrm, const ModSequence& seq);
#endif // MODPLUG_NO_FILESAVE
void ReadModSequence(std::istream& iStrm, ModSequence& seq, const size_t, mpt::Charset defaultCharset);
#ifndef MODPLUG_NO_FILESAVE
void WriteModSequenceOld(std::ostream& oStrm, const ModSequenceSet& seq);
#endif // MODPLUG_NO_FILESAVE
void ReadModSequenceOld(std::istream& iStrm, ModSequenceSet& seq, const size_t);
OPENMPT_NAMESPACE_END