854 lines
27 KiB
C++
854 lines
27 KiB
C++
/*
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https://github.com/peterix/dfhack
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Copyright (c) 2009-2012 Petr Mrázek (peterix@gmail.com)
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This software is provided 'as-is', without any express or implied
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warranty. In no event will the authors be held liable for any
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damages arising from the use of this software.
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Permission is granted to anyone to use this software for any
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purpose, including commercial applications, and to alter it and
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redistribute it freely, subject to the following restrictions:
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1. The origin of this software must not be misrepresented; you must
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not claim that you wrote the original software. If you use this
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software in a product, an acknowledgment in the product documentation
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would be appreciated but is not required.
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2. Altered source versions must be plainly marked as such, and
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must not be misrepresented as being the original software.
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3. This notice may not be removed or altered from any source
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distribution.
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*/
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#pragma once
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#include <map>
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#include <set>
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#include <sstream>
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#include <string>
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#include <type_traits>
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#include <utility>
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#include <vector>
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#include "BitArray.h"
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// Stop some MS stupidity
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#ifdef interface
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#undef interface
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#endif
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typedef struct lua_State lua_State;
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/*
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* Definitions of DFHack namespace structs used by generated headers.
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*/
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namespace DFHack
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{
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class Core;
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class virtual_class {};
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enum identity_type {
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IDTYPE_GLOBAL,
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IDTYPE_FUNCTION,
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IDTYPE_PRIMITIVE,
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IDTYPE_POINTER,
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IDTYPE_CONTAINER,
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IDTYPE_PTR_CONTAINER,
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IDTYPE_BIT_CONTAINER,
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IDTYPE_BITFIELD,
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IDTYPE_ENUM,
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IDTYPE_STRUCT,
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IDTYPE_CLASS,
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IDTYPE_BUFFER,
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IDTYPE_STL_PTR_VECTOR,
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IDTYPE_OPAQUE,
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IDTYPE_UNION
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};
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// pointer flags (bitfield), stored in the count field of struct_field_info
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// if mode is POINTER.
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enum pointer_identity_flags {
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PTRFLAG_IS_ARRAY = 1,
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PTRFLAG_HAS_BAD_POINTERS = 2,
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};
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typedef void *(*TAllocateFn)(void*,const void*);
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class DFHACK_EXPORT type_identity {
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size_t size;
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protected:
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type_identity(size_t size) : size(size) {};
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void *do_allocate_pod();
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void do_copy_pod(void *tgt, const void *src);
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bool do_destroy_pod(void *obj);
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virtual bool can_allocate() { return true; }
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virtual void *do_allocate() { return do_allocate_pod(); }
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virtual bool do_copy(void *tgt, const void *src) { do_copy_pod(tgt, src); return true; }
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virtual bool do_destroy(void *obj) { return do_destroy_pod(obj); }
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public:
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virtual ~type_identity() {}
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virtual size_t byte_size() { return size; }
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virtual identity_type type() = 0;
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virtual std::string getFullName() = 0;
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// For internal use in the lua wrapper
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virtual void lua_read(lua_State *state, int fname_idx, void *ptr) = 0;
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virtual void lua_write(lua_State *state, int fname_idx, void *ptr, int val_index) = 0;
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virtual void build_metatable(lua_State *state);
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// lua_read doesn't just return a reference to the object
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virtual bool isPrimitive() { return true; }
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// needs constructor/destructor
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virtual bool isConstructed() { return false; }
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// inherits from container_identity
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virtual bool isContainer() { return false; }
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void *allocate();
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bool copy(void *tgt, const void *src);
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bool destroy(void *obj);
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};
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class DFHACK_EXPORT constructed_identity : public type_identity {
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TAllocateFn allocator;
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protected:
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constructed_identity(size_t size, TAllocateFn alloc)
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: type_identity(size), allocator(alloc) {};
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virtual bool can_allocate() { return (allocator != NULL); }
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virtual void *do_allocate() { return allocator(NULL,NULL); }
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virtual bool do_copy(void *tgt, const void *src) { return allocator(tgt,src) == tgt; }
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virtual bool do_destroy(void *obj) { return allocator(NULL,obj) == obj; }
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public:
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virtual bool isPrimitive() { return false; }
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virtual bool isConstructed() { return true; }
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virtual void lua_read(lua_State *state, int fname_idx, void *ptr);
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virtual void lua_write(lua_State *state, int fname_idx, void *ptr, int val_index);
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};
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class DFHACK_EXPORT compound_identity : public constructed_identity {
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static compound_identity *list;
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compound_identity *next;
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const char *dfhack_name;
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compound_identity *scope_parent;
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std::vector<compound_identity*> scope_children;
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static std::vector<compound_identity*> top_scope;
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protected:
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compound_identity(size_t size, TAllocateFn alloc,
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compound_identity *scope_parent, const char *dfhack_name);
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virtual void doInit(Core *core);
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public:
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const char *getName() { return dfhack_name; }
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virtual std::string getFullName();
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compound_identity *getScopeParent() { return scope_parent; }
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const std::vector<compound_identity*> &getScopeChildren() { return scope_children; }
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static const std::vector<compound_identity*> &getTopScope() { return top_scope; }
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static void Init(Core *core);
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};
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// Bitfields
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struct bitfield_item_info {
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// the name of the field, or null if the field is unnamed
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const char *name;
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// size is positive for defined fields, zero for bits past the end
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// of the field, and negative for padding on multi-bit fields
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//
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// ex. if bits[2].size is -2, then bits[0].size is at least 3
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int size;
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};
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class DFHACK_EXPORT bitfield_identity : public compound_identity {
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const bitfield_item_info *bits;
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int num_bits;
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protected:
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virtual bool can_allocate() { return true; }
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virtual void *do_allocate() { return do_allocate_pod(); }
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virtual bool do_copy(void *tgt, const void *src) { do_copy_pod(tgt, src); return true; }
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virtual bool do_destroy(void *obj) { return do_destroy_pod(obj); }
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public:
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bitfield_identity(size_t size,
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compound_identity *scope_parent, const char *dfhack_name,
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int num_bits, const bitfield_item_info *bits);
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virtual identity_type type() { return IDTYPE_BITFIELD; }
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virtual bool isConstructed() { return false; }
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int getNumBits() { return num_bits; }
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const bitfield_item_info *getBits() { return bits; }
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virtual void build_metatable(lua_State *state);
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};
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class struct_identity;
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class DFHACK_EXPORT enum_identity : public compound_identity {
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public:
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struct ComplexData {
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std::map<int64_t, size_t> value_index_map;
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std::vector<int64_t> index_value_map;
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ComplexData(std::initializer_list<int64_t> values);
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size_t size() const {
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return index_value_map.size();
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}
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};
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private:
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const char *const *keys;
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const ComplexData *complex;
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int64_t first_item_value;
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int64_t last_item_value;
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int count;
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type_identity *base_type;
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const void *attrs;
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struct_identity *attr_type;
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protected:
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virtual bool can_allocate() { return true; }
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virtual void *do_allocate();
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virtual bool do_copy(void *tgt, const void *src) { do_copy_pod(tgt, src); return true; }
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virtual bool do_destroy(void *obj) { return do_destroy_pod(obj); }
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public:
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enum_identity(size_t size,
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compound_identity *scope_parent, const char *dfhack_name,
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type_identity *base_type,
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int64_t first_item_value, int64_t last_item_value,
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const char *const *keys,
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const ComplexData *complex,
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const void *attrs, struct_identity *attr_type);
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virtual identity_type type() { return IDTYPE_ENUM; }
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int64_t getFirstItem() { return first_item_value; }
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int64_t getLastItem() { return last_item_value; }
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int getCount() { return count; }
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const char *const *getKeys() { return keys; }
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const ComplexData *getComplex() { return complex; }
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type_identity *getBaseType() { return base_type; }
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const void *getAttrs() { return attrs; }
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struct_identity *getAttrType() { return attr_type; }
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virtual bool isPrimitive() { return true; }
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virtual bool isConstructed() { return false; }
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virtual void lua_read(lua_State *state, int fname_idx, void *ptr);
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virtual void lua_write(lua_State *state, int fname_idx, void *ptr, int val_index);
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};
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struct struct_field_info_extra {
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enum_identity *index_enum;
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type_identity *ref_target;
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const char *union_tag_field;
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const char *union_tag_attr;
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};
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struct struct_field_info {
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enum Mode {
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END,
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PRIMITIVE,
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STATIC_STRING,
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POINTER,
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STATIC_ARRAY,
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SUBSTRUCT,
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CONTAINER,
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STL_VECTOR_PTR,
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OBJ_METHOD,
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CLASS_METHOD
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};
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Mode mode;
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const char *name;
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size_t offset;
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type_identity *type;
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size_t count;
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const struct_field_info_extra *extra;
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};
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class DFHACK_EXPORT struct_identity : public compound_identity {
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struct_identity *parent;
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std::vector<struct_identity*> children;
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bool has_children;
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const struct_field_info *fields;
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protected:
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virtual void doInit(Core *core);
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public:
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struct_identity(size_t size, TAllocateFn alloc,
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compound_identity *scope_parent, const char *dfhack_name,
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struct_identity *parent, const struct_field_info *fields);
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virtual identity_type type() { return IDTYPE_STRUCT; }
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struct_identity *getParent() { return parent; }
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const std::vector<struct_identity*> &getChildren() { return children; }
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bool hasChildren() { return has_children; }
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const struct_field_info *getFields() { return fields; }
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bool is_subclass(struct_identity *subtype);
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virtual void build_metatable(lua_State *state);
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};
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class DFHACK_EXPORT global_identity : public struct_identity {
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public:
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global_identity(const struct_field_info *fields)
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: struct_identity(0,NULL,NULL,"global",NULL,fields) {}
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virtual identity_type type() { return IDTYPE_GLOBAL; }
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virtual void build_metatable(lua_State *state);
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};
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class DFHACK_EXPORT union_identity : public struct_identity {
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public:
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union_identity(size_t size, TAllocateFn alloc,
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compound_identity *scope_parent, const char *dfhack_name,
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struct_identity *parent, const struct_field_info *fields);
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virtual identity_type type() { return IDTYPE_UNION; }
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};
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#ifdef _MSC_VER
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typedef void *virtual_ptr;
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#else
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typedef virtual_class *virtual_ptr;
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#endif
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class DFHACK_EXPORT VMethodInterposeLinkBase;
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class MemoryPatcher;
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class DFHACK_EXPORT virtual_identity : public struct_identity {
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static std::map<void*, virtual_identity*> known;
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const char *original_name;
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void *vtable_ptr;
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bool is_plugin;
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friend class VMethodInterposeLinkBase;
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std::map<int,VMethodInterposeLinkBase*> interpose_list;
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protected:
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virtual void doInit(Core *core);
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static void *get_vtable(virtual_ptr instance_ptr) { return *(void**)instance_ptr; }
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bool can_allocate() { return struct_identity::can_allocate() && (vtable_ptr != NULL); }
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void *get_vmethod_ptr(int index);
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bool set_vmethod_ptr(MemoryPatcher &patcher, int index, void *ptr);
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public:
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virtual_identity(size_t size, TAllocateFn alloc,
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const char *dfhack_name, const char *original_name,
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virtual_identity *parent, const struct_field_info *fields,
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bool is_plugin = false);
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~virtual_identity();
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virtual identity_type type() { return IDTYPE_CLASS; }
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const char *getOriginalName() { return original_name ? original_name : getName(); }
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public:
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static virtual_identity *get(virtual_ptr instance_ptr);
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static virtual_identity *find(void *vtable);
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static virtual_identity *find(const std::string &name);
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bool is_instance(virtual_ptr instance_ptr) {
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if (!instance_ptr) return false;
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if (vtable_ptr) {
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void *vtable = get_vtable(instance_ptr);
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if (vtable == vtable_ptr) return true;
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if (!hasChildren()) return false;
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}
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return is_subclass(get(instance_ptr));
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}
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bool is_direct_instance(virtual_ptr instance_ptr) {
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if (!instance_ptr) return false;
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return vtable_ptr ? (vtable_ptr == get_vtable(instance_ptr))
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: (this == get(instance_ptr));
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}
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template<class P> static P get_vmethod_ptr(P selector);
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public:
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bool can_instantiate() { return can_allocate(); }
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virtual_ptr instantiate() { return can_instantiate() ? (virtual_ptr)do_allocate() : NULL; }
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static virtual_ptr clone(virtual_ptr obj);
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public:
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// Strictly for use in virtual class constructors
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void adjust_vtable(virtual_ptr obj, virtual_identity *main);
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};
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template<class T>
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inline T *virtual_cast(virtual_ptr ptr) {
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return T::_identity.is_instance(ptr) ? static_cast<T*>(ptr) : NULL;
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}
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#define VIRTUAL_CAST_VAR(var,type,input) type *var = virtual_cast<type>(input)
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template<class T>
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inline T *strict_virtual_cast(virtual_ptr ptr) {
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return T::_identity.is_direct_instance(ptr) ? static_cast<T*>(ptr) : NULL;
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}
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#define STRICT_VIRTUAL_CAST_VAR(var,type,input) type *var = strict_virtual_cast<type>(input)
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void InitDataDefGlobals(Core *core);
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template<class T>
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T *ifnull(T *a, T *b) { return a ? a : b; }
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template<class T>
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struct enum_list_attr {
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size_t size;
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const T *items;
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};
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}
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template<class T>
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int linear_index(const DFHack::enum_list_attr<T> &lst, T val) {
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for (size_t i = 0; i < lst.size; i++)
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if (lst.items[i] == val)
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return i;
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return -1;
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}
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inline int linear_index(const DFHack::enum_list_attr<const char*> &lst, const std::string &val) {
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for (size_t i = 0; i < lst.size; i++)
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if (lst.items[i] == val)
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return (int)i;
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return -1;
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}
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/*
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* Definitions of df namespace structs used by generated headers.
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*/
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namespace df
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{
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using DFHack::type_identity;
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using DFHack::compound_identity;
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using DFHack::virtual_ptr;
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using DFHack::virtual_identity;
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using DFHack::virtual_class;
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using DFHack::global_identity;
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using DFHack::struct_identity;
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using DFHack::union_identity;
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using DFHack::struct_field_info;
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using DFHack::struct_field_info_extra;
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using DFHack::bitfield_item_info;
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using DFHack::bitfield_identity;
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using DFHack::enum_identity;
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using DFHack::enum_list_attr;
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using DFHack::BitArray;
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using DFHack::DfArray;
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using DFHack::DfLinkedList;
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using DFHack::DfOtherVectors;
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#pragma GCC diagnostic push
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#pragma GCC diagnostic ignored "-Wdelete-non-virtual-dtor"
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template<class T>
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void *allocator_fn(void *out, const void *in) {
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if (out) { *(T*)out = *(const T*)in; return out; }
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else if (in) { delete (T*)in; return (T*)in; }
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else return new T();
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}
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#pragma GCC diagnostic pop
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template<class T>
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void *allocator_nodel_fn(void *out, const void *in) {
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if (out) { *(T*)out = *(const T*)in; return out; }
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else if (in) { return NULL; }
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else return new T();
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}
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template<class T>
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struct identity_traits {
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static compound_identity *get() { return &T::_identity; }
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};
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template<class T>
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inline T* allocate() { return (T*)identity_traits<T>::get()->allocate(); }
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template<class T>
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struct enum_traits {};
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template<class T>
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struct bitfield_traits {};
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template<class EnumType, class IntType = int32_t>
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struct enum_field {
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IntType value;
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enum_field() {}
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enum_field(EnumType ev) : value(IntType(ev)) {}
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template<class T>
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enum_field(enum_field<EnumType,T> ev) : value(IntType(ev.value)) {}
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operator EnumType () const { return EnumType(value); }
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enum_field<EnumType,IntType> &operator=(EnumType ev) {
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value = IntType(ev); return *this;
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}
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};
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template<class ET, class IT>
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struct enum_traits<enum_field<ET, IT> > : public enum_traits<ET> {};
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template<class EnumType, class IntType1, class IntType2>
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inline bool operator== (enum_field<EnumType,IntType1> a, enum_field<EnumType,IntType2> b)
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{
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return EnumType(a) == EnumType(b);
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}
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template<class EnumType, class IntType1, class IntType2>
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inline bool operator!= (enum_field<EnumType,IntType1> a, enum_field<EnumType,IntType2> b)
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{
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return EnumType(a) != EnumType(b);
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}
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namespace enums {}
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}
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/*
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* Templates for access to enum and bitfield traits.
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*/
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DFHACK_EXPORT std::string join_strings(const std::string &separator, const std::vector<std::string> &items);
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namespace DFHack {
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/*
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* Enum trait tools.
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*/
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/**
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* Return the next item in the enum, wrapping to the first one at the end if 'wrap' is true (otherwise an invalid item).
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*/
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template<class T>
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inline typename std::enable_if<
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!df::enum_traits<T>::is_complex,
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typename df::enum_traits<T>::enum_type
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>::type next_enum_item(T v, bool wrap = true)
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{
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typedef df::enum_traits<T> traits;
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typedef typename traits::base_type base_type;
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base_type iv = base_type(v);
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if (iv < traits::last_item_value)
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{
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return T(iv + 1);
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}
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else
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{
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if (wrap)
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return traits::first_item;
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else
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return T(traits::last_item_value + 1);
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}
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}
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template<class T>
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inline typename std::enable_if<
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df::enum_traits<T>::is_complex,
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typename df::enum_traits<T>::enum_type
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>::type next_enum_item(T v, bool wrap = true)
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{
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typedef df::enum_traits<T> traits;
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const auto &complex = traits::complex;
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const auto it = complex.value_index_map.find(v);
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if (it != complex.value_index_map.end())
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{
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if (!wrap && it->second + 1 == complex.size())
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{
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return T(traits::last_item_value + 1);
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}
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size_t next_index = (it->second + 1) % complex.size();
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return T(complex.index_value_map[next_index]);
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}
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else
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return T(traits::last_item_value + 1);
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}
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/**
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* Check if the value is valid for its enum type.
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*/
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template<class T>
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inline typename std::enable_if<
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!df::enum_traits<T>::is_complex,
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bool
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>::type is_valid_enum_item(T v)
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{
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return df::enum_traits<T>::is_valid(v);
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}
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template<class T>
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inline typename std::enable_if<
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df::enum_traits<T>::is_complex,
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bool
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>::type is_valid_enum_item(T v)
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{
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const auto &complex = df::enum_traits<T>::complex;
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return complex.value_index_map.find(v) != complex.value_index_map.end();
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}
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/**
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* Return the enum item key string pointer, or NULL if none.
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*/
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template<class T>
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inline typename std::enable_if<
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!df::enum_traits<T>::is_complex,
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const char *
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>::type enum_item_raw_key(T val) {
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typedef df::enum_traits<T> traits;
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return traits::is_valid(val) ? traits::key_table[(short)val - traits::first_item_value] : NULL;
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}
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template<class T>
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inline typename std::enable_if<
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df::enum_traits<T>::is_complex,
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const char *
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>::type enum_item_raw_key(T val) {
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typedef df::enum_traits<T> traits;
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const auto &value_index_map = traits::complex.value_index_map;
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auto it = value_index_map.find(val);
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if (it != value_index_map.end())
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return traits::key_table[it->second];
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else
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return NULL;
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}
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/**
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* Return the enum item key string pointer, or "?" if none.
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*/
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template<class T>
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inline const char *enum_item_key_str(T val) {
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return ifnull(enum_item_raw_key(val), "?");
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}
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template<class BaseType>
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std::string format_key(const char *keyname, BaseType val) {
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if (keyname) return std::string(keyname);
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std::stringstream ss; ss << "?" << val << "?"; return ss.str();
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}
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/**
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* Return the enum item key string, or ?123? (using the numeric value) if unknown.
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*/
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template<class T>
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inline std::string enum_item_key(T val) {
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typedef typename df::enum_traits<T>::base_type base_type;
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return format_key<base_type>(enum_item_raw_key(val), base_type(val));
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}
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DFHACK_EXPORT int findEnumItem(const std::string &name, int size, const char *const *items);
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/**
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* Find an enum item by key string. Returns success code.
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*/
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template<class T>
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inline bool find_enum_item(T *var, const std::string &name) {
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typedef df::enum_traits<T> traits;
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int size = traits::last_item_value-traits::first_item_value+1;
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int idx = findEnumItem(name, size, traits::key_table);
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if (idx < 0) return false;
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*var = T(traits::first_item_value+idx);
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return true;
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}
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/*
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* Bitfield tools.
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*/
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DFHACK_EXPORT bool findBitfieldField(unsigned *idx, const std::string &name,
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unsigned size, const bitfield_item_info *items);
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DFHACK_EXPORT void setBitfieldField(void *p, unsigned idx, unsigned size, int value);
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DFHACK_EXPORT int getBitfieldField(const void *p, unsigned idx, unsigned size);
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/**
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* Find a bitfield item by key string. Returns success code.
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*/
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template<class T>
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inline bool find_bitfield_field(unsigned *idx, const std::string &name, const T* = NULL) {
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typedef df::bitfield_traits<T> traits;
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return findBitfieldField(&idx, name, traits::bit_count, traits::bits);
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}
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/**
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* Find a bitfield item by key and set its value. Returns success code.
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*/
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template<class T>
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inline bool set_bitfield_field(T *bitfield, const std::string &name, int value)
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{
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typedef df::bitfield_traits<T> traits;
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unsigned idx;
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if (!findBitfieldField(&idx, name, traits::bit_count, traits::bits)) return false;
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setBitfieldField(&bitfield->whole, idx, traits::bits[idx].size, value);
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return true;
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}
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/**
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* Find a bitfield item by key and retrieve its value. Returns success code.
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*/
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template<class T>
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inline bool get_bitfield_field(int *value, const T &bitfield, const std::string &name)
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{
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typedef df::bitfield_traits<T> traits;
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unsigned idx;
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if (!findBitfieldField(&idx, name, traits::bit_count, traits::bits)) return false;
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*value = getBitfieldField(&bitfield.whole, idx, traits::bits[idx].size);
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return true;
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}
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DFHACK_EXPORT void bitfieldToString(std::vector<std::string> *pvec, const void *p,
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unsigned size, const bitfield_item_info *items);
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/**
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* Represent bitfield bits as strings in a vector.
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*/
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template<class T>
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inline void bitfield_to_string(std::vector<std::string> *pvec, const T &val) {
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typedef df::bitfield_traits<T> traits;
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bitfieldToString(pvec, &val.whole, traits::bit_count, traits::bits);
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}
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/**
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* Represent bitfield bits as a string, using sep as join separator.
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*/
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template<class T>
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inline std::string bitfield_to_string(const T &val, const std::string &sep = " ") {
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std::vector<std::string> tmp;
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bitfield_to_string<T>(&tmp, val);
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return join_strings(sep, tmp);
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}
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/*
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* BitArray tools
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*/
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/**
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* Find a flag array item by key string. Returns success code.
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*/
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template<class T>
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inline bool find_flagarray_field(unsigned *idx, const std::string &name, const BitArray<T>*) {
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T tmp;
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if (!find_enum_item(&tmp, name) || tmp < 0) return false;
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*idx = unsigned(tmp);
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return true;
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}
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/**
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* Find a flag array item by key and set its value. Returns success code.
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*/
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template<class T>
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inline bool set_flagarray_field(BitArray<T> *bitfield, const std::string &name, int value)
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{
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T tmp;
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if (!find_enum_item(&tmp, name) || tmp < 0) return false;
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bitfield->set(tmp, value!=0);
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return true;
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}
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/**
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* Find a flag array item by key and retrieve its value. Returns success code.
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*/
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template<class T>
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inline bool get_flagarray_field(int *value, const BitArray<T> &bitfield, const std::string &name)
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{
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T tmp;
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if (!find_enum_item(&tmp, name) || tmp < 0) return false;
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*value = (bitfield->is_set(tmp) ? 1 : 0);
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return true;
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}
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DFHACK_EXPORT void flagarrayToString(std::vector<std::string> *pvec, const void *p,
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int bytes, int base, int size, const char *const *items);
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/**
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* Represent flag array bits as strings in a vector.
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*/
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template<class T>
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inline void flagarray_to_string(std::vector<std::string> *pvec, const BitArray<T> &val) {
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typedef df::enum_traits<T> traits;
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int size = traits::last_item_value-traits::first_item_value+1;
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flagarrayToString(pvec, val.bits, val.size,
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(int)traits::first_item_value, size, traits::key_table);
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}
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/**
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* Represent flag array bits as a string, using sep as join separator.
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*/
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template<class T>
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inline std::string flagarray_to_string(const BitArray<T> &val, const std::string &sep = " ") {
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std::vector<std::string> tmp;
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flagarray_to_string<T>(&tmp, val);
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return join_strings(sep, tmp);
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}
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|
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/**
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* Finds the tag field for a given union field.
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*
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* The returned tag field is a primitive enum field or nullptr.
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*
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* If the union field is a container type, the returned tag field is
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* a container of primitive enum types.
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*
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* As a special case, a container-type union can have a tag field that is
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* a bit vector if it has exactly two members.
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*/
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DFHACK_EXPORT const struct_field_info *find_union_tag(const struct_field_info *fields, const struct_field_info *union_field);
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}
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#define ENUM_ATTR(enum,attr,val) (df::enum_traits<df::enum>::attrs(val).attr)
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#define ENUM_ATTR_STR(enum,attr,val) DFHack::ifnull(ENUM_ATTR(enum,attr,val),"?")
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#define ENUM_KEY_STR(enum,val) (DFHack::enum_item_key<df::enum>(val))
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#define ENUM_FIRST_ITEM(enum) (df::enum_traits<df::enum>::first_item)
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#define ENUM_LAST_ITEM(enum) (df::enum_traits<df::enum>::last_item)
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#define ENUM_NEXT_ITEM(enum,val) \
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(DFHack::next_enum_item<df::enum>(val))
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#define FOR_ENUM_ITEMS(enum,iter) \
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for(df::enum iter = ENUM_FIRST_ITEM(enum); DFHack::is_valid_enum_item(iter); iter = DFHack::next_enum_item(iter, false))
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|
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/*
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* Include mandatory generated headers.
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*/
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// Global object pointers
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#include "df/global_objects.h"
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#define DF_GLOBAL_VALUE(name,defval) (df::global::name ? *df::global::name : defval)
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#define DF_GLOBAL_FIELD(name,fname,defval) (df::global::name ? df::global::name->fname : defval)
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// A couple of headers that have to be included at once
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#include "df/coord2d.h"
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#include "df/coord.h"
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