SPIRV/SPVRemapper.h - platform/external/deqp-deps/glslang - Gitiles

 //
 // Copyright (C) 2015 LunarG, Inc.
 //
 // All rights reserved.
 //
 // Redistribution and use in source and binary forms, with or without
 // modification, are permitted provided that the following conditions
 // are met:
 //
 //    Redistributions of source code must retain the above copyright
 //    notice, this list of conditions and the following disclaimer.
 //
 //    Redistributions in binary form must reproduce the above
 //    copyright notice, this list of conditions and the following
 //    disclaimer in the documentation and/or other materials provided
 //    with the distribution.
 //
 //    Neither the name of 3Dlabs Inc. Ltd. nor the names of its
 //    contributors may be used to endorse or promote products derived
 //    from this software without specific prior written permission.
 //
 // THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
 // "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
 // LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS
 // FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE
 // COPYRIGHT HOLDERS OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT,
 // INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING,
 // BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES;
 // LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER
 // CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT
 // LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN
 // ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE
 // POSSIBILITY OF SUCH DAMAGE.
 //

 #ifndef SPIRVREMAPPER_H
 #define SPIRVREMAPPER_H

 #include <string>
 #include <vector>
 #include <cstdlib>
 #include <exception>

 namespace spv {

 // MSVC defines __cplusplus as an older value, even when it supports almost all of 11.
 // We handle that here by making our own symbol.
 #if __cplusplus >= 201103L || _MSC_VER >= 1700
 #   define use_cpp11 1
 #endif

 class spirvbin_base_t
 {
 public:
    enum Options {
       NONE          = 0,
       STRIP         = (1<<0),
       MAP_TYPES     = (1<<1),
       MAP_NAMES     = (1<<2),
       MAP_FUNCS     = (1<<3),
       DCE_FUNCS     = (1<<4),
       DCE_VARS      = (1<<5),
       DCE_TYPES     = (1<<6),
       OPT_LOADSTORE = (1<<7),
       OPT_FWD_LS    = (1<<8), // EXPERIMENTAL: PRODUCES INVALID SCHEMA-0 SPIRV
       MAP_ALL       = (MAP_TYPES | MAP_NAMES | MAP_FUNCS),
       DCE_ALL       = (DCE_FUNCS | DCE_VARS | DCE_TYPES),
       OPT_ALL       = (OPT_LOADSTORE),

       ALL_BUT_STRIP = (MAP_ALL | DCE_ALL | OPT_ALL),
       DO_EVERYTHING = (STRIP | ALL_BUT_STRIP)
    };
 };

 } // namespace SPV

 #if !defined (use_cpp11)
 #include <cstdio>
 #include <cstdint>

 namespace spv {
 class spirvbin_t : public spirvbin_base_t
 {
 public:
     spirvbin_t(int /*verbose = 0*/) { }

     void remap(std::vector<std::uint32_t>& /*spv*/, unsigned int /*opts = 0*/)
     {
         printf("Tool not compiled for C++11, which is required for SPIR-V remapping.\n");
         exit(5);
     }
 };

 } // namespace SPV

 #else // defined (use_cpp11)

 #include <functional>
 #include <cstdint>
 #include <unordered_map>
 #include <unordered_set>
 #include <map>
 #include <set>
 #include <cassert>

 #include "spirv.hpp"
 #include "spvIR.h"

 namespace spv {

 // class to hold SPIR-V binary data for remapping, DCE, and debug stripping
 class spirvbin_t : public spirvbin_base_t
 {
 public:
    spirvbin_t(int verbose = 0) : entryPoint(spv::NoResult), largestNewId(0), verbose(verbose), errorLatch(false)
    { }

    virtual ~spirvbin_t() { }

    // remap on an existing binary in memory
    void remap(std::vector<std::uint32_t>& spv, std::uint32_t opts = DO_EVERYTHING);

    // Type for error/log handler functions
    typedef std::function<void(const std::string&)> errorfn_t;
    typedef std::function<void(const std::string&)> logfn_t;

    // Register error/log handling functions (can be lambda fn / functor / etc)
    static void registerErrorHandler(errorfn_t handler) { errorHandler = handler; }
    static void registerLogHandler(logfn_t handler)     { logHandler   = handler; }

 protected:
    // This can be overridden to provide other message behavior if needed
    virtual void msg(int minVerbosity, int indent, const std::string& txt) const;

 private:
    // Local to global, or global to local ID map
    typedef std::unordered_map<spv::Id, spv::Id> idmap_t;
    typedef std::unordered_set<spv::Id>          idset_t;
    typedef std::unordered_map<spv::Id, int>     blockmap_t;

    void remap(std::uint32_t opts = DO_EVERYTHING);

    // Map of names to IDs
    typedef std::unordered_map<std::string, spv::Id> namemap_t;

    typedef std::uint32_t spirword_t;

    typedef std::pair<unsigned, unsigned> range_t;
    typedef std::function<void(spv::Id&)>                idfn_t;
    typedef std::function<bool(spv::Op, unsigned start)> instfn_t;

    // Special Values for ID map:
    static const spv::Id unmapped;     // unchanged from default value
    static const spv::Id unused;       // unused ID
    static const int     header_size;  // SPIR header = 5 words

    class id_iterator_t;

    // For mapping type entries between different shaders
    typedef std::vector<spirword_t>        typeentry_t;
    typedef std::map<spv::Id, typeentry_t> globaltypes_t;

    // A set that preserves position order, and a reverse map
    typedef std::set<int>                    posmap_t;
    typedef std::unordered_map<spv::Id, int> posmap_rev_t;

    // Maps and ID to the size of its base type, if known.
    typedef std::unordered_map<spv::Id, unsigned> typesize_map_t;

    // handle error
    void error(const std::string& txt) const { errorLatch = true; errorHandler(txt); }

    bool     isConstOp(spv::Op opCode)      const;
    bool     isTypeOp(spv::Op opCode)       const;
    bool     isStripOp(spv::Op opCode)      const;
    bool     isFlowCtrl(spv::Op opCode)     const;
    range_t  literalRange(spv::Op opCode)   const;
    range_t  typeRange(spv::Op opCode)      const;
    range_t  constRange(spv::Op opCode)     const;
    unsigned typeSizeInWords(spv::Id id)    const;
    unsigned idTypeSizeInWords(spv::Id id)  const;

    spv::Id&        asId(unsigned word)                { return spv[word]; }
    const spv::Id&  asId(unsigned word)          const { return spv[word]; }
    spv::Op         asOpCode(unsigned word)      const { return opOpCode(spv[word]); }
    std::uint32_t   asOpCodeHash(unsigned word);
    spv::Decoration asDecoration(unsigned word)  const { return spv::Decoration(spv[word]); }
    unsigned        asWordCount(unsigned word)   const { return opWordCount(spv[word]); }
    spv::Id         asTypeConstId(unsigned word) const { return asId(word + (isTypeOp(asOpCode(word)) ? 1 : 2)); }
    unsigned        idPos(spv::Id id)            const;

    static unsigned opWordCount(spirword_t data) { return data >> spv::WordCountShift; }
    static spv::Op  opOpCode(spirword_t data)    { return spv::Op(data & spv::OpCodeMask); }

    // Header access & set methods
    spirword_t  magic()    const       { return spv[0]; } // return magic number
    spirword_t  bound()    const       { return spv[3]; } // return Id bound from header
    spirword_t  bound(spirword_t b)    { return spv[3] = b; };
    spirword_t  genmagic() const       { return spv[2]; } // generator magic
    spirword_t  genmagic(spirword_t m) { return spv[2] = m; }
    spirword_t  schemaNum() const      { return spv[4]; } // schema number from header

    // Mapping fns: get
    spv::Id     localId(spv::Id id) const { return idMapL[id]; }

    // Mapping fns: set
    inline spv::Id   localId(spv::Id id, spv::Id newId);
    void             countIds(spv::Id id);

    // Return next unused new local ID.
    // NOTE: boost::dynamic_bitset would be more efficient due to find_next(),
    // which std::vector<bool> doens't have.
    inline spv::Id   nextUnusedId(spv::Id id);

    void buildLocalMaps();
    std::string literalString(unsigned word) const; // Return literal as a std::string
    int literalStringWords(const std::string& str) const { return (int(str.size())+4)/4; }

    bool isNewIdMapped(spv::Id newId)   const { return isMapped(newId);            }
    bool isOldIdUnmapped(spv::Id oldId) const { return localId(oldId) == unmapped; }
    bool isOldIdUnused(spv::Id oldId)   const { return localId(oldId) == unused;   }
    bool isOldIdMapped(spv::Id oldId)   const { return !isOldIdUnused(oldId) && !isOldIdUnmapped(oldId); }
    bool isFunction(spv::Id oldId)      const { return fnPos.find(oldId) != fnPos.end(); }

    // bool    matchType(const globaltypes_t& globalTypes, spv::Id lt, spv::Id gt) const;
    // spv::Id findType(const globaltypes_t& globalTypes, spv::Id lt) const;
    std::uint32_t hashType(unsigned typeStart) const;

    spirvbin_t& process(instfn_t, idfn_t, unsigned begin = 0, unsigned end = 0);
    int         processInstruction(unsigned word, instfn_t, idfn_t);

    void        validate() const;
    void        mapTypeConst();
    void        mapFnBodies();
    void        optLoadStore();
    void        dceFuncs();
    void        dceVars();
    void        dceTypes();
    void        mapNames();
    void        foldIds();  // fold IDs to smallest space
    void        forwardLoadStores(); // load store forwarding (EXPERIMENTAL)
    void        offsetIds(); // create relative offset IDs

    void        applyMap();            // remap per local name map
    void        mapRemainder();        // map any IDs we haven't touched yet
    void        stripDebug();          // strip all debug info
    void        stripDeadRefs();       // strips debug info for now-dead references after DCE
    void        strip();               // remove debug symbols

    std::vector<spirword_t> spv;      // SPIR words

    namemap_t               nameMap;  // ID names from OpName

    // Since we want to also do binary ops, we can't use std::vector<bool>.  we could use
    // boost::dynamic_bitset, but we're trying to avoid a boost dependency.
    typedef std::uint64_t bits_t;
    std::vector<bits_t> mapped; // which new IDs have been mapped
    static const int mBits = sizeof(bits_t) * 4;

    bool isMapped(spv::Id id) const  { return id < maxMappedId() && ((mapped[id/mBits] & (1LL<<(id%mBits))) != 0); }
    void setMapped(spv::Id id) { resizeMapped(id); mapped[id/mBits] |= (1LL<<(id%mBits)); }
    void resizeMapped(spv::Id id) { if (id >= maxMappedId()) mapped.resize(id/mBits+1, 0); }
    size_t maxMappedId() const { return mapped.size() * mBits; }

    // Add a strip range for a given instruction starting at 'start'
    // Note: avoiding brace initializers to please older versions os MSVC.
    void stripInst(unsigned start) { stripRange.push_back(range_t(start, start + asWordCount(start))); }

    // Function start and end.  use unordered_map because we'll have
    // many fewer functions than IDs.
    std::unordered_map<spv::Id, range_t> fnPos;

    // Which functions are called, anywhere in the module, with a call count
    std::unordered_map<spv::Id, int> fnCalls;

    posmap_t       typeConstPos;  // word positions that define types & consts (ordered)
    posmap_rev_t   idPosR;        // reverse map from IDs to positions
    typesize_map_t idTypeSizeMap; // maps each ID to its type size, if known.

    std::vector<spv::Id>  idMapL;   // ID {M}ap from {L}ocal to {G}lobal IDs

    spv::Id entryPoint;      // module entry point
    spv::Id largestNewId;    // biggest new ID we have mapped anything to

    // Sections of the binary to strip, given as [begin,end)
    std::vector<range_t> stripRange;

    // processing options:
    std::uint32_t options;
    int           verbose;     // verbosity level

    // Error latch: this is set if the error handler is ever executed.  It would be better to
    // use a try/catch block and throw, but that's not desired for certain environments, so
    // this is the alternative.
    mutable bool errorLatch;

    static errorfn_t errorHandler;
    static logfn_t   logHandler;
 };

 } // namespace SPV

 #endif // defined (use_cpp11)
 #endif // SPIRVREMAPPER_H
	//
	// Copyright (C) 2015 LunarG, Inc.
	//
	// All rights reserved.
	//
	// Redistribution and use in source and binary forms, with or without
	// modification, are permitted provided that the following conditions
	// are met:
	//
	// Redistributions of source code must retain the above copyright
	// notice, this list of conditions and the following disclaimer.
	//
	// Redistributions in binary form must reproduce the above
	// copyright notice, this list of conditions and the following
	// disclaimer in the documentation and/or other materials provided
	// with the distribution.
	//
	// Neither the name of 3Dlabs Inc. Ltd. nor the names of its
	// contributors may be used to endorse or promote products derived
	// from this software without specific prior written permission.
	//
	// THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
	// "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
	// LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS
	// FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE
	// COPYRIGHT HOLDERS OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT,
	// INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING,
	// BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES;
	// LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER
	// CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT
	// LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN
	// ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE
	// POSSIBILITY OF SUCH DAMAGE.
	//

	#ifndef SPIRVREMAPPER_H
	#define SPIRVREMAPPER_H

	#include <string>
	#include <vector>
	#include <cstdlib>
	#include <exception>

	namespace spv {

	// MSVC defines __cplusplus as an older value, even when it supports almost all of 11.
	// We handle that here by making our own symbol.
	#if __cplusplus >= 201103L \|\| _MSC_VER >= 1700
	# define use_cpp11 1
	#endif

	class spirvbin_base_t
	{
	public:
	enum Options {
	NONE = 0,
	STRIP = (1<<0),
	MAP_TYPES = (1<<1),
	MAP_NAMES = (1<<2),
	MAP_FUNCS = (1<<3),
	DCE_FUNCS = (1<<4),
	DCE_VARS = (1<<5),
	DCE_TYPES = (1<<6),
	OPT_LOADSTORE = (1<<7),
	OPT_FWD_LS = (1<<8), // EXPERIMENTAL: PRODUCES INVALID SCHEMA-0 SPIRV
	MAP_ALL = (MAP_TYPES \| MAP_NAMES \| MAP_FUNCS),
	DCE_ALL = (DCE_FUNCS \| DCE_VARS \| DCE_TYPES),
	OPT_ALL = (OPT_LOADSTORE),

	ALL_BUT_STRIP = (MAP_ALL \| DCE_ALL \| OPT_ALL),
	DO_EVERYTHING = (STRIP \| ALL_BUT_STRIP)
	};
	};

	} // namespace SPV

	#if !defined (use_cpp11)
	#include <cstdio>
	#include <cstdint>

	namespace spv {
	class spirvbin_t : public spirvbin_base_t
	{
	public:
	spirvbin_t(int /verbose = 0/) { }

	void remap(std::vector<std::uint32_t>& /spv/, unsigned int /opts = 0/)
	{
	printf("Tool not compiled for C++11, which is required for SPIR-V remapping.\n");
	exit(5);
	}
	};

	} // namespace SPV

	#else // defined (use_cpp11)

	#include <functional>
	#include <cstdint>
	#include <unordered_map>
	#include <unordered_set>
	#include <map>
	#include <set>
	#include <cassert>

	#include "spirv.hpp"
	#include "spvIR.h"

	namespace spv {

	// class to hold SPIR-V binary data for remapping, DCE, and debug stripping
	class spirvbin_t : public spirvbin_base_t
	{
	public:
	spirvbin_t(int verbose = 0) : entryPoint(spv::NoResult), largestNewId(0), verbose(verbose), errorLatch(false)
	{ }

	virtual ~spirvbin_t() { }

	// remap on an existing binary in memory
	void remap(std::vector<std::uint32_t>& spv, std::uint32_t opts = DO_EVERYTHING);

	// Type for error/log handler functions
	typedef std::function<void(const std::string&)> errorfn_t;
	typedef std::function<void(const std::string&)> logfn_t;

	// Register error/log handling functions (can be lambda fn / functor / etc)
	static void registerErrorHandler(errorfn_t handler) { errorHandler = handler; }
	static void registerLogHandler(logfn_t handler) { logHandler = handler; }

	protected:
	// This can be overridden to provide other message behavior if needed
	virtual void msg(int minVerbosity, int indent, const std::string& txt) const;

	private:
	// Local to global, or global to local ID map
	typedef std::unordered_map<spv::Id, spv::Id> idmap_t;
	typedef std::unordered_set<spv::Id> idset_t;
	typedef std::unordered_map<spv::Id, int> blockmap_t;

	void remap(std::uint32_t opts = DO_EVERYTHING);

	// Map of names to IDs
	typedef std::unordered_map<std::string, spv::Id> namemap_t;

	typedef std::uint32_t spirword_t;

	typedef std::pair<unsigned, unsigned> range_t;
	typedef std::function<void(spv::Id&)> idfn_t;
	typedef std::function<bool(spv::Op, unsigned start)> instfn_t;

	// Special Values for ID map:
	static const spv::Id unmapped; // unchanged from default value
	static const spv::Id unused; // unused ID
	static const int header_size; // SPIR header = 5 words

	class id_iterator_t;

	// For mapping type entries between different shaders
	typedef std::vector<spirword_t> typeentry_t;
	typedef std::map<spv::Id, typeentry_t> globaltypes_t;

	// A set that preserves position order, and a reverse map
	typedef std::set<int> posmap_t;
	typedef std::unordered_map<spv::Id, int> posmap_rev_t;

	// Maps and ID to the size of its base type, if known.
	typedef std::unordered_map<spv::Id, unsigned> typesize_map_t;

	// handle error
	void error(const std::string& txt) const { errorLatch = true; errorHandler(txt); }

	bool isConstOp(spv::Op opCode) const;
	bool isTypeOp(spv::Op opCode) const;
	bool isStripOp(spv::Op opCode) const;
	bool isFlowCtrl(spv::Op opCode) const;
	range_t literalRange(spv::Op opCode) const;
	range_t typeRange(spv::Op opCode) const;
	range_t constRange(spv::Op opCode) const;
	unsigned typeSizeInWords(spv::Id id) const;
	unsigned idTypeSizeInWords(spv::Id id) const;

	spv::Id& asId(unsigned word) { return spv[word]; }
	const spv::Id& asId(unsigned word) const { return spv[word]; }
	spv::Op asOpCode(unsigned word) const { return opOpCode(spv[word]); }
	std::uint32_t asOpCodeHash(unsigned word);
	spv::Decoration asDecoration(unsigned word) const { return spv::Decoration(spv[word]); }
	unsigned asWordCount(unsigned word) const { return opWordCount(spv[word]); }
	spv::Id asTypeConstId(unsigned word) const { return asId(word + (isTypeOp(asOpCode(word)) ? 1 : 2)); }
	unsigned idPos(spv::Id id) const;

	static unsigned opWordCount(spirword_t data) { return data >> spv::WordCountShift; }
	static spv::Op opOpCode(spirword_t data) { return spv::Op(data & spv::OpCodeMask); }

	// Header access & set methods
	spirword_t magic() const { return spv[0]; } // return magic number
	spirword_t bound() const { return spv[3]; } // return Id bound from header
	spirword_t bound(spirword_t b) { return spv[3] = b; };
	spirword_t genmagic() const { return spv[2]; } // generator magic
	spirword_t genmagic(spirword_t m) { return spv[2] = m; }
	spirword_t schemaNum() const { return spv[4]; } // schema number from header

	// Mapping fns: get
	spv::Id localId(spv::Id id) const { return idMapL[id]; }

	// Mapping fns: set
	inline spv::Id localId(spv::Id id, spv::Id newId);
	void countIds(spv::Id id);

	// Return next unused new local ID.
	// NOTE: boost::dynamic_bitset would be more efficient due to find_next(),
	// which std::vector<bool> doens't have.
	inline spv::Id nextUnusedId(spv::Id id);

	void buildLocalMaps();
	std::string literalString(unsigned word) const; // Return literal as a std::string
	int literalStringWords(const std::string& str) const { return (int(str.size())+4)/4; }

	bool isNewIdMapped(spv::Id newId) const { return isMapped(newId); }
	bool isOldIdUnmapped(spv::Id oldId) const { return localId(oldId) == unmapped; }
	bool isOldIdUnused(spv::Id oldId) const { return localId(oldId) == unused; }
	bool isOldIdMapped(spv::Id oldId) const { return !isOldIdUnused(oldId) && !isOldIdUnmapped(oldId); }
	bool isFunction(spv::Id oldId) const { return fnPos.find(oldId) != fnPos.end(); }

	// bool matchType(const globaltypes_t& globalTypes, spv::Id lt, spv::Id gt) const;
	// spv::Id findType(const globaltypes_t& globalTypes, spv::Id lt) const;
	std::uint32_t hashType(unsigned typeStart) const;

	spirvbin_t& process(instfn_t, idfn_t, unsigned begin = 0, unsigned end = 0);
	int processInstruction(unsigned word, instfn_t, idfn_t);

	void validate() const;
	void mapTypeConst();
	void mapFnBodies();
	void optLoadStore();
	void dceFuncs();
	void dceVars();
	void dceTypes();
	void mapNames();
	void foldIds(); // fold IDs to smallest space
	void forwardLoadStores(); // load store forwarding (EXPERIMENTAL)
	void offsetIds(); // create relative offset IDs

	void applyMap(); // remap per local name map
	void mapRemainder(); // map any IDs we haven't touched yet
	void stripDebug(); // strip all debug info
	void stripDeadRefs(); // strips debug info for now-dead references after DCE
	void strip(); // remove debug symbols

	std::vector<spirword_t> spv; // SPIR words

	namemap_t nameMap; // ID names from OpName

	// Since we want to also do binary ops, we can't use std::vector<bool>. we could use
	// boost::dynamic_bitset, but we're trying to avoid a boost dependency.
	typedef std::uint64_t bits_t;
	std::vector<bits_t> mapped; // which new IDs have been mapped
	static const int mBits = sizeof(bits_t) * 4;

	bool isMapped(spv::Id id) const { return id < maxMappedId() && ((mapped[id/mBits] & (1LL<<(id%mBits))) != 0); }
	void setMapped(spv::Id id) { resizeMapped(id); mapped[id/mBits] \|= (1LL<<(id%mBits)); }
	void resizeMapped(spv::Id id) { if (id >= maxMappedId()) mapped.resize(id/mBits+1, 0); }
	size_t maxMappedId() const { return mapped.size() * mBits; }

	// Add a strip range for a given instruction starting at 'start'
	// Note: avoiding brace initializers to please older versions os MSVC.
	void stripInst(unsigned start) { stripRange.push_back(range_t(start, start + asWordCount(start))); }

	// Function start and end. use unordered_map because we'll have
	// many fewer functions than IDs.
	std::unordered_map<spv::Id, range_t> fnPos;

	// Which functions are called, anywhere in the module, with a call count
	std::unordered_map<spv::Id, int> fnCalls;

	posmap_t typeConstPos; // word positions that define types & consts (ordered)
	posmap_rev_t idPosR; // reverse map from IDs to positions
	typesize_map_t idTypeSizeMap; // maps each ID to its type size, if known.

	std::vector<spv::Id> idMapL; // ID {M}ap from {L}ocal to {G}lobal IDs

	spv::Id entryPoint; // module entry point
	spv::Id largestNewId; // biggest new ID we have mapped anything to

	// Sections of the binary to strip, given as [begin,end)
	std::vector<range_t> stripRange;

	// processing options:
	std::uint32_t options;
	int verbose; // verbosity level

	// Error latch: this is set if the error handler is ever executed. It would be better to
	// use a try/catch block and throw, but that's not desired for certain environments, so
	// this is the alternative.
	mutable bool errorLatch;

	static errorfn_t errorHandler;
	static logfn_t logHandler;
	};

	} // namespace SPV

	#endif // defined (use_cpp11)
	#endif // SPIRVREMAPPER_H