mirror of
https://github.com/RPCS3/glslang.git
synced 2024-11-24 03:39:51 +00:00
265 lines
5.7 KiB
GLSL
265 lines
5.7 KiB
GLSL
#version 450
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#extension GL_ARB_gpu_shader_int64: enable
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layout(binding = 0) uniform Uniforms
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{
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uint index;
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};
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layout(std140, binding = 1) uniform Block
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{
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i64vec3 i64v;
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uint64_t u64;
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} block;
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void main()
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{
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}
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void literal()
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{
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const int64_t i64Const[3] =
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{
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-0x1111111111111111l, // Hex
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-1l, // Dec
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040000000000l, // Oct
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};
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int64_t i64 = i64Const[index];
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const uint64_t u64Const[] =
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{
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0xFFFFFFFFFFFFFFFFul, // Hex
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4294967296UL, // Dec
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077777777777ul, // Oct
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};
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uint64_t u64 = u64Const[index];
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}
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void typeCast()
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{
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bvec2 bv;
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ivec2 iv;
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uvec2 uv;
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vec2 fv;
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dvec2 dv;
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i64vec2 i64v;
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u64vec2 u64v;
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i64v = i64vec2(bv); // bool -> int64
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u64v = u64vec2(bv); // bool -> uint64
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i64v = iv; // int -> int64
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iv = ivec2(i64v); // int64 -> int
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u64v = uv; // uint -> uint64
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uv = uvec2(u64v); // uint64 -> uint
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fv = vec2(i64v); // int64 -> float
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dv = i64v; // int64 -> double
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fv = vec2(u64v); // uint64 -> float
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dv = u64v; // uint64 -> double
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i64v = i64vec2(fv); // float -> int64
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i64v = i64vec2(dv); // double -> int64
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u64v = u64vec2(fv); // float -> uint64
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u64v = u64vec2(dv); // double -> uint64
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bv = bvec2(i64v); // int64 -> bool
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bv = bvec2(u64v); // uint64 -> bool
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u64v = i64v; // int64 -> uint64
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i64v = i64vec2(u64v); // uint64 -> int64
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uv = uvec2(i64v); // int64 -> uint
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i64v = i64vec2(uv); // uint -> int64
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iv = ivec2(u64v); // uint64 -> int
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u64v = iv; // int -> uint64
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}
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void operators()
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{
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u64vec3 u64v;
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int64_t i64;
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uvec3 uv;
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int i;
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bool b;
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// Unary
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u64v++;
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i64--;
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++i64;
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--u64v;
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u64v = ~u64v;
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i64 = +i64;
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u64v = -u64v;
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// Arithmetic
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i64 += i64;
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u64v -= u64v;
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i64 *= i;
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u64v /= uv;
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u64v %= i;
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u64v = u64v + uv;
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i64 = i64 - i;
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u64v = u64v * uv;
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i64 = i64 * i;
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i64 = i64 % i;
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// Shift
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u64v <<= i;
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i64 >>= uv.y;
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i64 = i64 << u64v.z;
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u64v = u64v << i64;
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// Relational
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b = (u64v.x != i64);
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b = (i64 == u64v.x);
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b = (u64v.x > uv.y);
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b = (i64 < i);
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b = (u64v.y >= uv.x);
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b = (i64 <= i);
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// Bitwise
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u64v |= i;
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i64 = i64 | i;
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i64 &= i;
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u64v = u64v & uv;
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u64v ^= i64;
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u64v = u64v ^ i64;
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}
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void builtinFuncs()
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{
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i64vec2 i64v;
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u64vec3 u64v;
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dvec3 dv;
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bvec3 bv;
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int64_t i64;
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uint64_t u64;
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// abs()
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i64v = abs(i64v);
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// sign()
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i64 = sign(i64);
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// min()
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i64v = min(i64v, i64);
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i64v = min(i64v, i64vec2(-1));
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u64v = min(u64v, u64);
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u64v = min(u64v, u64vec3(0));
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// max()
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i64v = max(i64v, i64);
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i64v = max(i64v, i64vec2(-1));
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u64v = max(u64v, u64);
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u64v = max(u64v, u64vec3(0));
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// clamp()
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i64v = clamp(i64v, -i64, i64);
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i64v = clamp(i64v, -i64v, i64v);
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u64v = clamp(u64v, -u64, u64);
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u64v = clamp(u64v, -u64v, u64v);
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// mix()
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i64 = mix(i64v.x, i64v.y, true);
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i64v = mix(i64vec2(i64), i64vec2(-i64), bvec2(false));
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u64 = mix(u64v.x, u64v.y, true);
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u64v = mix(u64vec3(u64), u64vec3(-u64), bvec3(false));
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// doubleBitsToInt64()
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i64v = doubleBitsToInt64(dv.xy);
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// doubleBitsToUint64()
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u64v.x = doubleBitsToUint64(dv.z);
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// int64BitsToDouble()
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dv.xy = int64BitsToDouble(i64v);
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// uint64BitsToDouble()
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dv = uint64BitsToDouble(u64v);
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// packInt2x32()
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i64 = packInt2x32(ivec2(1, 2));
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// unpackInt2x32()
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ivec2 iv = unpackInt2x32(i64);
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// packUint2x32()
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u64 = packUint2x32(uvec2(2, 3));
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// unpackUint2x32()
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uvec2 uv = unpackUint2x32(u64);
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// lessThan()
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bv = lessThan(u64v, u64vec3(u64));
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bv.xy = lessThan(i64v, i64vec2(i64));
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// lessThanEqual()
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bv = lessThanEqual(u64v, u64vec3(u64));
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bv.xy = lessThanEqual(i64v, i64vec2(i64));
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// greaterThan()
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bv = greaterThan(u64v, u64vec3(u64));
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bv.xy = greaterThan(i64v, i64vec2(i64));
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// greaterThanEqual()
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bv = greaterThanEqual(u64v, u64vec3(u64));
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bv.xy = greaterThanEqual(i64v, i64vec2(i64));
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// equal()
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bv = equal(u64v, u64vec3(u64));
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bv.xy = equal(i64v, i64vec2(i64));
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// notEqual()
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bv = notEqual(u64v, u64vec3(u64));
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bv.xy = notEqual(i64v, i64vec2(i64));
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}
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// Type conversion for specialization constant
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layout(constant_id = 100) const int64_t si64 = -10L;
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layout(constant_id = 101) const uint64_t su64 = 20UL;
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layout(constant_id = 102) const int si = -5;
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layout(constant_id = 103) const uint su = 4;
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layout(constant_id = 104) const bool sb = true;
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// bool <-> int64/uint64
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const bool i64_to_b = bool(si64);
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const bool u64_to_b = bool(su64);
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const int64_t b_to_i64 = int64_t(sb);
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const uint64_t b_to_u64 = uint64_t(sb);
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// int <-> int64
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const int i64_to_i = int(si64);
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const int64_t i_to_i64 = int64_t(si);
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// uint <-> uint64
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const uint u64_to_u = uint(su64);
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const uint64_t u_to_u64 = uint64_t(su);
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// int64 <-> uint64
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const int64_t u64_to_i64 = int64_t(su64);
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const uint64_t i64_to_u64 = uint64_t(si64);
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// int <-> uint64
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const int u64_to_i = int(su64);
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const uint64_t i_to_u64 = uint64_t(si);
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// uint <-> int64
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const uint i64_to_u = uint(si64);
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const int64_t u_to_i64 = int64_t(su);
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#define UINT64_MAX 18446744073709551615ul
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uint64_t u64Max = UINT64_MAX;
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