225 lines
4.9 KiB
C++
225 lines
4.9 KiB
C++
// modified from mutilate
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// -*- c++ -*-
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// 1. implement "fixed" generator
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// 2. implement discrete generator
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// 3. implement combine generator?
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#ifndef GENERATOR_H
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#define GENERATOR_H
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#include <netinet/in.h>
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#include <string>
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#include <vector>
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#include <utility>
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#include <assert.h>
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#include <inttypes.h>
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#include <limits.h>
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#include <math.h>
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#include <stdint.h>
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#include <stdlib.h>
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#include <string.h>
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#include <sys/param.h>
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#define D(fmt, ...)
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#define DIE(fmt, ...)
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uint64_t
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fnv_64_buf(const void* buf, size_t len);
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static inline uint64_t
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fnv_64(uint64_t in) {
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return fnv_64_buf(&in, sizeof(in));
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}
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// Generator syntax:
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//
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// \d+ == fixed
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// n[ormal]:mean,sd
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// e[xponential]:lambda
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// p[areto]:scale,shape
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// g[ev]:loc,scale,shape
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// fb_value, fb_key, fb_rate
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class Generator {
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public:
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Generator() {}
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// Generator(const Generator &g) = delete;
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// virtual Generator& operator=(const Generator &g) = delete;
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virtual ~Generator() {}
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virtual double generate(double U = -1.0) = 0;
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virtual void set_lambda(double lambda) {DIE("set_lambda() not implemented");}
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protected:
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std::string type;
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};
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class Fixed : public Generator {
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public:
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Fixed(double _value = 1.0) : value(_value) { D("Fixed(%f)", value); }
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virtual double generate(double U = -1.0) { return value; }
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virtual void set_lambda(double lambda) {
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if (lambda > 0.0) value = 1.0 / lambda;
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else value = 0.0;
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}
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private:
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double value;
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};
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class Uniform : public Generator {
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public:
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Uniform(double _scale) : scale(_scale) { D("Uniform(%f)", scale); }
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virtual double generate(double U = -1.0) {
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if (U < 0.0) U = drand48();
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return scale * U;
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}
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virtual void set_lambda(double lambda) {
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if (lambda > 0.0) scale = 2.0 / lambda;
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else scale = 0.0;
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}
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private:
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double scale;
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};
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class Normal : public Generator {
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public:
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Normal(double _mean = 1.0, double _sd = 1.0) : mean(_mean), sd(_sd) {
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D("Normal(mean=%f, sd=%f)", mean, sd);
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}
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virtual double generate(double U = -1.0) {
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if (U < 0.0) U = drand48();
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double V = U; // drand48();
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double N = sqrt(-2 * log(U)) * cos(2 * M_PI * V);
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return mean + sd * N;
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}
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virtual void set_lambda(double lambda) {
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if (lambda > 0.0) mean = 1.0 / lambda;
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else mean = 0.0;
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}
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private:
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double mean, sd;
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};
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class Exponential : public Generator {
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public:
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Exponential(double _lambda = 1.0) : lambda(_lambda) {
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D("Exponential(lambda=%f)", lambda);
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}
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virtual double generate(double U = -1.0) {
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if (lambda <= 0.0) return 0.0;
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if (U < 0.0) U = drand48();
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return -log(U) / lambda;
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}
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virtual void set_lambda(double lambda) { this->lambda = lambda; }
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private:
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double lambda;
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};
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class GPareto : public Generator {
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public:
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GPareto(double _loc = 0.0, double _scale = 1.0, double _shape = 1.0) :
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loc(_loc), scale(_scale), shape(_shape) {
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assert(shape != 0.0);
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D("GPareto(loc=%f, scale=%f, shape=%f)", loc, scale, shape);
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}
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virtual double generate(double U = -1.0) {
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if (U < 0.0) U = drand48();
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return loc + scale * (pow(U, -shape) - 1) / shape;
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}
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virtual void set_lambda(double lambda) {
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if (lambda <= 0.0) scale = 0.0;
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else scale = (1 - shape) / lambda - (1 - shape) * loc;
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}
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private:
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double loc /* mu */;
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double scale /* sigma */, shape /* k */;
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};
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class GEV : public Generator {
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public:
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GEV(double _loc = 0.0, double _scale = 1.0, double _shape = 1.0) :
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e(1.0), loc(_loc), scale(_scale), shape(_shape) {
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assert(shape != 0.0);
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D("GEV(loc=%f, scale=%f, shape=%f)", loc, scale, shape);
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}
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virtual double generate(double U = -1.0) {
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return loc + scale * (pow(e.generate(U), -shape) - 1) / shape;
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}
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private:
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Exponential e;
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double loc /* mu */, scale /* sigma */, shape /* k */;
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};
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class Discrete : public Generator {
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public:
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~Discrete() { delete def; }
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Discrete(Generator* _def = NULL) : def(_def) {
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if (def == NULL) def = new Fixed(0.0);
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}
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virtual double generate(double U = -1.0) {
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double Uc = U;
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if (pv.size() > 0 && U < 0.0) U = drand48();
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double sum = 0;
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for (auto p: pv) {
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sum += p.first;
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if (U < sum) return p.second;
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}
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return def->generate(Uc);
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}
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void add(double p, double v) {
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pv.push_back(std::pair<double,double>(p, v));
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}
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private:
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Generator *def;
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std::vector< std::pair<double,double> > pv;
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};
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class KeyGenerator {
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public:
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KeyGenerator(Generator* _g, double _max = 10000) : g(_g), max(_max) {}
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std::string generate(uint64_t ind) {
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uint64_t h = fnv_64(ind);
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double U = (double) h / (double)ULLONG_MAX;
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double G = g->generate(U);
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int keylen = MAX(round(G), floor(log10(max)) + 1);
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char key[256];
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snprintf(key, 256, "%0*" PRIu64, keylen, ind);
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// D("%d = %s", ind, key);
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return std::string(key);
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}
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private:
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Generator* g;
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double max;
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};
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Generator* createGenerator(std::string str);
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Generator* createFacebookKey();
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Generator* createFacebookValue();
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Generator* createFacebookIA();
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#endif // GENERATOR_H
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