mirror of
https://github.com/JGRennison/OpenTTD-patches.git
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184 lines
5.4 KiB
C
184 lines
5.4 KiB
C
/* $Id$ */
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#ifndef MACROS_H
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#define MACROS_H
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#include "map.h"
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/// Fetch n bits starting at bit s from x
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#define GB(x, s, n) (((x) >> (s)) & ((1U << (n)) - 1))
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/// Set n bits starting at bit s in x to d
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#define SB(x, s, n, d) ((x) = ((x) & ~(((1U << (n)) - 1) << (s))) | ((d) << (s)))
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/// Add i to the n bits starting at bit s in x
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#define AB(x, s, n, i) ((x) = ((x) & ~(((1U << (n)) - 1) << (s))) | (((x) + ((i) << (s))) & (((1U << (n)) - 1) << (s))))
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#ifdef min
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#undef min
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#endif
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#ifdef max
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#undef max
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#endif
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static inline int min(int a, int b) { if (a <= b) return a; return b; }
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static inline int max(int a, int b) { if (a >= b) return a; return b; }
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static inline int64 max64(int64 a, int64 b) { if (a >= b) return a; return b; }
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static inline uint minu(uint a, uint b) { if (a <= b) return a; return b; }
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static inline uint maxu(uint a, uint b) { if (a >= b) return a; return b; }
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static inline int clamp(int a, int min, int max)
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{
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if (a <= min) return min;
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if (a >= max) return max;
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return a;
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}
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static inline uint clampu(uint a, uint min, uint max)
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{
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if (a <= min) return min;
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if (a >= max) return max;
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return a;
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}
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static inline int32 BIGMULSS(int32 a, int32 b, int shift) {
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return (int32)(((int64)(a) * (int64)(b)) >> (shift));
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}
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static inline int64 BIGMULSS64(int64 a, int64 b, int shift) {
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return ((a) * (b)) >> (shift);
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}
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static inline uint32 BIGMULUS(uint32 a, uint32 b, int shift) {
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return (uint32)(((uint64)(a) * (uint64)(b)) >> (shift));
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}
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static inline int64 BIGMULS(int32 a, int32 b) {
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return (int32)(((int64)(a) * (int64)(b)));
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}
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/* OPT: optimized into an unsigned comparison */
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//#define IS_INSIDE_1D(x, base, size) ((x) >= (base) && (x) < (base) + (size))
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#define IS_INSIDE_1D(x, base, size) ( (uint)((x) - (base)) < ((uint)(size)) )
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#define HASBIT(x,y) (((x) & (1 << (y))) != 0)
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#define SETBIT(x,y) ((x) |= (1 << (y)))
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#define CLRBIT(x,y) ((x) &= ~(1 << (y)))
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#define TOGGLEBIT(x,y) ((x) ^= (1 << (y)))
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// checking more bits. Maybe unneccessary, but easy to use
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#define HASBITS(x,y) ((x) & (y))
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#define SETBITS(x,y) ((x) |= (y))
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#define CLRBITS(x,y) ((x) &= ~(y))
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#define GENERAL_SPRITE_COLOR(color) ( ((color) + PALETTE_RECOLOR_START) << PALETTE_SPRITE_START)
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#define PLAYER_SPRITE_COLOR(owner) ( GENERAL_SPRITE_COLOR(_player_colors[owner]))
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#define SPRITE_PALETTE(x) ((x) | PALETTE_MODIFIER_COLOR)
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extern const byte _ffb_64[128];
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/* Returns the position of the first bit that is not zero, counted from the
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* left. Ie, 10110100 returns 2, 00000001 returns 0, etc. When x == 0 returns
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* 0.
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*/
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#define FIND_FIRST_BIT(x) _ffb_64[(x)]
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/* Returns x with the first bit that is not zero, counted from the left, set
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* to zero. So, 10110100 returns 10110000, 00000001 returns 00000000, etc.
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*/
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#define KILL_FIRST_BIT(x) _ffb_64[(x)+64]
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static inline int FindFirstBit2x64(int value)
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{
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/*
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int i = 0;
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if ( (byte) value == 0) {
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i += 8;
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value >>= 8;
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}
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return i + FIND_FIRST_BIT(value & 0x3F);
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Faster ( or at least cleaner ) implementation below?
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*/
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if (GB(value, 0, 8) == 0) {
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return FIND_FIRST_BIT(GB(value, 8, 6)) + 8;
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} else {
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return FIND_FIRST_BIT(GB(value, 0, 6));
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}
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}
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static inline int KillFirstBit2x64(int value)
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{
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if (GB(value, 0, 8) == 0) {
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return KILL_FIRST_BIT(GB(value, 8, 6)) << 8;
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} else {
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return value & (KILL_FIRST_BIT(GB(value, 0, 6)) | 0x3F00);
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}
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}
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/** returns true if value a has only one bit set to 1 */
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#define HAS_SINGLE_BIT(a) ( ((a) & ((a) - 1)) == 0)
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/* [min,max), strictly less than */
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#define IS_BYTE_INSIDE(a,min,max) ((byte)((a)-(min)) < (byte)((max)-(min)))
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#define IS_INT_INSIDE(a,min,max) ((uint)((a)-(min)) < (uint)((max)-(min)))
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#define CHANCE16(a,b) ((uint16)Random() <= (uint16)((65536 * (a)) / (b)))
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#define CHANCE16R(a,b,r) ((uint16)(r=Random()) <= (uint16)((65536 * (a)) / (b)))
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#define CHANCE16I(a,b,v) ((uint16)(v) <= (uint16)((65536 * (a)) / (b)))
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#define for_each_bit(_i, _b) \
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for (_i = 0; _b != 0; _i++, _b >>= 1) \
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if (_b & 1)
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#define abs myabs
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static inline int intxchg_(int *a, int b) { int t = *a; *a = b; return t; }
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#define intswap(a,b) ((b) = intxchg_(&(a), (b)))
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static inline int uintxchg_(uint *a, uint b) { uint t = *a; *a = b; return t; }
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#define uintswap(a,b) ((b) = uintxchg_(&(a), (b)))
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static inline int myabs(int a) { if (a<0) a = -a; return a; }
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static inline int64 myabs64(int64 a) { if (a<0) a = -a; return a; }
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static inline void swap_byte(byte *a, byte *b) { byte t = *a; *a = *b; *b = t; }
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static inline void swap_uint16(uint16 *a, uint16 *b) { uint16 t = *a; *a = *b; *b = t; }
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static inline void swap_int16(int16 *a, int16 *b) { int16 t = *a; *a = *b; *b = t; }
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static inline void swap_int32(int32 *a, int32 *b) { int32 t = *a; *a = *b; *b = t; }
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static inline void swap_tile(TileIndex *a, TileIndex *b) { TileIndex t = *a; *a = *b; *b = t; }
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static inline uint16 ReadLE16Aligned(const void* x)
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{
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return FROM_LE16(*(const uint16*)x);
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}
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static inline uint16 ReadLE16Unaligned(const void* x)
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{
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#ifdef OTTD_ALIGNMENT
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return ((const byte*)x)[0] | ((const byte*)x)[1] << 8;
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#else
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return FROM_LE16(*(const uint16*)x);
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#endif
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}
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/**
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* ROtate x Left/Right by n (must be >= 0)
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* @note Assumes a byte has 8 bits
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*/
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#define ROL(x, n) ((x) << (n) | (x) >> (sizeof(x) * 8 - (n)))
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#define ROR(x, n) ((x) >> (n) | (x) << (sizeof(x) * 8 - (n)))
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/**
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* Return the smallest multiple of n equal or greater than x
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* @note n must be a power of 2
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*/
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#define ALIGN(x, n) (((x) + (n) - 1) & ~((n) - 1))
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#endif /* MACROS_H */
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