mirror of
https://github.com/transmission/transmission
synced 2024-12-27 01:57:52 +00:00
186 lines
5.2 KiB
C++
186 lines
5.2 KiB
C++
#ifndef __TEMPLATES_H__
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#define __TEMPLATES_H__
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#include "utypes.h"
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#include <assert.h>
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#if defined(POSIX)
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/* Allow over-writing FORCEINLINE from makefile because gcc 3.4.4 for buffalo
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doesn't seem to support __attribute__((always_inline)) in -O0 build
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(strangely, it works in -Os build) */
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#ifndef FORCEINLINE
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// The always_inline attribute asks gcc to inline the function even if no optimization is being requested.
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// This macro should be used exclusive-or with the inline directive (use one or the other but not both)
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// since Microsoft uses __forceinline to also mean inline,
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// and this code is following a Microsoft compatibility model.
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// Just setting the attribute without also specifying the inline directive apparently won't inline the function,
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// as evidenced by multiply-defined symbols found at link time.
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#define FORCEINLINE inline __attribute__((always_inline))
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#endif
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#endif
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#ifdef __GNUC__
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// Used for gcc tool chains accepting but not supporting pragma pack
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// See http://gcc.gnu.org/onlinedocs/gcc/Type-Attributes.html
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#define PACKED_ATTRIBUTE __attribute__((__packed__))
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#else
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#define PACKED_ATTRIBUTE
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#endif
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#ifdef __GNUC__
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#define ALIGNED_ATTRIBUTE(x) __attribute__((aligned (x)))
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#else
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#define ALIGNED_ATTRIBUTE(x)
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#endif
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// Utility templates
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#undef min
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#undef max
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template <typename T> static inline T min(T a, T b) { if (a < b) return a; return b; }
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template <typename T> static inline T max(T a, T b) { if (a > b) return a; return b; }
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template <typename T> static inline T min(T a, T b, T c) { return min(min(a,b),c); }
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template <typename T> static inline T max(T a, T b, T c) { return max(max(a,b),c); }
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template <typename T> static inline T clamp(T v, T mi, T ma)
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{
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if (v > ma) v = ma;
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if (v < mi) v = mi;
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return v;
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}
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#if (defined(__SVR4) && defined(__sun))
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#pragma pack(1)
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#else
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#pragma pack(push,1)
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#endif
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namespace aux
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{
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FORCEINLINE uint16 host_to_network(uint16 i) { return htons(i); }
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FORCEINLINE uint32 host_to_network(uint32 i) { return htonl(i); }
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FORCEINLINE int32 host_to_network(int32 i) { return htonl(i); }
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FORCEINLINE uint16 network_to_host(uint16 i) { return ntohs(i); }
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FORCEINLINE uint32 network_to_host(uint32 i) { return ntohl(i); }
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FORCEINLINE int32 network_to_host(int32 i) { return ntohl(i); }
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}
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template <class T>
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struct PACKED_ATTRIBUTE big_endian
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{
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T operator=(T i) { m_integer = aux::host_to_network(i); return i; }
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operator T() const { return aux::network_to_host(m_integer); }
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private:
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T m_integer;
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};
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typedef big_endian<int32> int32_big;
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typedef big_endian<uint32> uint32_big;
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typedef big_endian<uint16> uint16_big;
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#if (defined(__SVR4) && defined(__sun))
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#pragma pack(0)
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#else
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#pragma pack(pop)
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#endif
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template<typename T> static inline void zeromem(T *a, size_t count = 1) { memset(a, 0, count * sizeof(T)); }
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typedef int SortCompareProc(const void *, const void *);
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template<typename T> static FORCEINLINE void QuickSortT(T *base, size_t num, int (*comp)(const T *, const T *)) { qsort(base, num, sizeof(T), (SortCompareProc*)comp); }
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// WARNING: The template parameter MUST be a POD type!
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template <typename T, size_t minsize = 16> class Array {
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protected:
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T *mem;
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size_t alloc,count;
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public:
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Array(size_t init) { Init(init); }
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Array() { Init(); }
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~Array() { Free(); }
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void inline Init() { mem = NULL; alloc = count = 0; }
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void inline Init(size_t init) { Init(); if (init) Resize(init); }
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size_t inline GetCount() const { return count; }
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size_t inline GetAlloc() const { return alloc; }
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void inline SetCount(size_t c) { count = c; }
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inline T& operator[](size_t offset) { assert(offset ==0 || offset<alloc); return mem[offset]; }
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inline const T& operator[](size_t offset) const { assert(offset ==0 || offset<alloc); return mem[offset]; }
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void inline Resize(size_t a) {
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if (a == 0) { free(mem); Init(); }
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else { mem = (T*)realloc(mem, (alloc=a) * sizeof(T)); }
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}
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void Grow() { Resize(::max<size_t>(minsize, alloc * 2)); }
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inline size_t Append(const T &t) {
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if (count >= alloc) Grow();
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size_t r=count++;
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mem[r] = t;
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return r;
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}
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T inline &Append() {
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if (count >= alloc) Grow();
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return mem[count++];
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}
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void inline Compact() {
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Resize(count);
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}
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void inline Free() {
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free(mem);
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Init();
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}
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void inline Clear() {
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count = 0;
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}
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bool inline MoveUpLast(size_t index) {
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assert(index < count);
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size_t c = --count;
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if (index != c) {
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mem[index] = mem[c];
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return true;
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}
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return false;
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}
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bool inline MoveUpLastExist(const T &v) {
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return MoveUpLast(LookupElementExist(v));
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}
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size_t inline LookupElement(const T &v) const {
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for(size_t i = 0; i != count; i++)
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if (mem[i] == v)
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return i;
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return (size_t) -1;
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}
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bool inline HasElement(const T &v) const {
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return LookupElement(v) != -1;
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}
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typedef int SortCompareProc(const T *a, const T *b);
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void Sort(SortCompareProc* proc, size_t start, size_t end) {
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QuickSortT(&mem[start], end - start, proc);
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}
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void Sort(SortCompareProc* proc, size_t start) {
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Sort(proc, start, count);
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}
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void Sort(SortCompareProc* proc) {
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Sort(proc, 0, count);
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}
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};
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#endif //__TEMPLATES_H__
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