star-sp

Random number generators and distributions
git clone git://git.meso-star.fr/star-sp.git
Log | Files | Refs | README | LICENSE
commit e860a7e620d19eab4ae419312f2dc0655511953b
parent 1cfc01ff3b8b1dd26f98fa268fba021b1f9370a4
Author: Vincent Forest <vincent.forest@meso-star.com>
Date:   Wed,  2 Dec 2020 11:19:22 +0100

Merge branch 'feature_rw_cstr' into develop

Diffstat:

Msrc/ssp.h | 44+++++++++++++++++++++++++++++++++++---------


Msrc/ssp_rng.c | 125+++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++--------


Msrc/ssp_rng_proxy.c | 368++++++++++++++++++++++++++++++++++++++++++++++++++++++-------------------------


Msrc/test_ssp_rng.c | 38++++++++++++++++++++++++++++++++++++--


Msrc/test_ssp_rng_proxy.c | 206+++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++------------------


5 files changed, 596 insertions(+), 185 deletions(-)

diff --git a/src/ssp.h b/src/ssp.h
@@ -76,7 +76,9 @@ struct ssp_rng_type {
   uint64_t (*get)(void* state);
   res_T (*discard)(void* state, uint64_t n);
   res_T (*read)(void* state, FILE* file);
+  res_T (*read_cstr)(void* state, const char* cstr);
   res_T (*write)(const void* state, FILE* file);
+  res_T (*write_cstr)(const void* state, char* buf, const size_t sz, size_t* len);
   double (*entropy)(const void* state);
 
   uint64_t min;
@@ -95,13 +97,29 @@ ssp_rng_type_eq(const struct ssp_rng_type* t0, const struct ssp_rng_type* t1)
       && t0->get == t1->get
       && t0->discard == t1->discard
       && t0->read == t1->read
+      && t0->read_cstr == t1->read_cstr
       && t0->write == t1->write
+      && t0->write_cstr == t1->write_cstr
       && t0->entropy == t1->entropy
       && t0->min == t1->min
       && t0->max == t1->max
-      && t0->sizeof_state == t1->sizeof_state;
+      && t0->sizeof_state == t1->sizeof_state
+      && t0->alignof_state == t1->alignof_state;
 }
 
+/* Arguments of the ssp_rng_proxy_create2 function */
+struct ssp_rng_proxy_create2_args {
+  const struct ssp_rng* rng; /* Original RNG state. May be NULL*/
+  const struct ssp_rng_type* type; /* Type of the RN if 'rng' is NULL */
+  size_t sequence_offset; /* #RNs before the 1st valid sequence */
+  size_t sequence_size; /* #RNs in a sequence */
+  size_t sequence_pitch; /* #RNs between sequences. Must be >= sequence_size */
+  size_t nbuckets; /* #buckets of continuous RNs in a sequence */
+};
+#define SSP_RNG_PROXY_CREATE2_ARGS_NULL__ {NULL, NULL, 0, 0, 0, 0}
+static const struct ssp_rng_proxy_create2_args SSP_RNG_PROXY_CREATE2_ARGS_NULL =
+  SSP_RNG_PROXY_CREATE2_ARGS_NULL__;
+
 BEGIN_DECLS
 
 /* David Jones's Keep It Simple Stupid builtin PRNG type. Suitable for fast
@@ -202,15 +220,27 @@ ssp_rng_max
   (struct ssp_rng* rng);
 
 SSP_API res_T
-ssp_rng_write
-  (const struct ssp_rng* rng,
+ssp_rng_read
+  (struct ssp_rng* rng,
    FILE* stream);
 
 SSP_API res_T
-ssp_rng_read
+ssp_rng_read_cstr
   (struct ssp_rng* rng,
+   const char* cstr); /* Null terminated string */
+
+SSP_API res_T
+ssp_rng_write
+  (const struct ssp_rng* rng,
    FILE* stream);
 
+SSP_API res_T
+ssp_rng_write_cstr
+  (const struct ssp_rng* rng,
+   char* buf, /* May be NULL */
+   const size_t bufsz, /* buf capacity */
+   size_t* len); /* May be NULL. #chars to write into buf without null char */
+
 SSP_API double
 ssp_rng_entropy
   (const struct ssp_rng* rng);
@@ -238,11 +268,7 @@ ssp_rng_proxy_create_from_rng
 SSP_API res_T
 ssp_rng_proxy_create2
   (struct mem_allocator* mem_allocator,
-   const struct ssp_rng_type* type,
-   const size_t sequence_offset, /* #RNs before the 1st valid sequence */
-   const size_t sequence_size, /* #RNs in a sequence */
-   const size_t sequence_pitch, /* #RNs between 2 consecutive sequence */
-   const size_t nbuckets, /* #buckets in sequence */
+   const struct ssp_rng_proxy_create2_args* args,
    struct ssp_rng_proxy** out_proxy);
 
 SSP_API res_T
diff --git a/src/ssp_rng.c b/src/ssp_rng.c
@@ -107,19 +107,19 @@ rng_kiss_read(void* data, FILE* file)
 {
   struct rng_kiss* rng = (struct rng_kiss*)data;
   int n;
-  res_T res = RES_OK;
   ASSERT(data && file);
+  n = fscanf(file, "%u %u %u %u\n", &rng->x, &rng->y, &rng->z, &rng->c);
+  return (n == EOF || n < 4) ? RES_IO_ERR : RES_OK;
+}
 
-  n = fscanf(file, "%u %u %u %u", &rng->x, &rng->y, &rng->z, &rng->c);
-  if(n == EOF || n < 4) { 
-    res = RES_IO_ERR;
-    goto error;
-  }
-
-exit:
-  return res;
-error:
-  goto exit;
+static res_T
+rng_kiss_read_cstr(void* data, const char* cstr)
+{
+  struct rng_kiss* rng = (struct rng_kiss*)data;
+  int n;
+  ASSERT(data && cstr);
+  n = sscanf(cstr, "%u %u %u %u\n", &rng->x, &rng->y, &rng->z, &rng->c);
+  return (n == EOF || n < 4) ? RES_IO_ERR : RES_OK;
 }
 
 static res_T
@@ -133,6 +133,26 @@ rng_kiss_write(const void* data, FILE* file)
 }
 
 static res_T
+rng_kiss_write_cstr
+  (const void* data,
+   char* buf,
+   const size_t bufsz,
+   size_t* out_len)
+{
+  const struct rng_kiss* rng = (const struct rng_kiss*)data;
+  int len = 0;
+  ASSERT(data);
+
+  len = snprintf(buf, bufsz, "%u %u %u %u\n", rng->x, rng->y, rng->z, rng->c);
+  CHK(len > 0);
+  if((size_t)len >= (bufsz - 1/*null char*/)) {
+    buf[bufsz-1] = '\0';
+  }
+  if(out_len) *out_len = (size_t)len;
+  return RES_OK;
+}
+
+static res_T
 rng_kiss_init(struct mem_allocator* allocator, void* data)
 {
   (void)allocator;
@@ -170,7 +190,9 @@ const struct ssp_rng_type ssp_rng_kiss = {
   rng_kiss_get,
   rng_kiss_discard,
   rng_kiss_read,
+  rng_kiss_read_cstr,
   rng_kiss_write,
+  rng_kiss_write_cstr,
   rng_kiss_entropy,
   0,
   UINT32_MAX,
@@ -231,6 +253,37 @@ rng_cxx_write<RAN_NAMESPACE::random_device>(const void* data, FILE* file)
 
 template<typename RNG>
 static res_T
+rng_cxx_write_cstr
+  (const void* data,
+   char* buf,
+   const size_t bufsz,
+   size_t* out_len)
+{
+  int len = 0;
+  std::stringstream stream;
+  RNG* rng = (RNG*)data;
+  ASSERT(rng);
+  stream << *rng << std::endl;
+  len = snprintf(buf, bufsz, "%s", stream.str().c_str());
+  CHK(len > 0);
+  if((size_t)len >= (bufsz - 1/*null char*/)) {
+    buf[bufsz-1] = '\0';
+  }
+  if(out_len) *out_len = (size_t)len;
+  return RES_OK;
+}
+
+template<>
+res_T
+rng_cxx_write_cstr<RAN_NAMESPACE::random_device>
+  (const void* data, char* buf, const size_t bufsz, size_t* out_len)
+{
+  (void)data; (void)buf, (void)bufsz, (void)out_len;
+  return RES_BAD_OP;
+}
+
+template<typename RNG>
+static res_T
 rng_cxx_read(void* data, FILE* file)
 {
   std::stringstream stream;
@@ -250,7 +303,27 @@ template<>
 res_T
 rng_cxx_read<RAN_NAMESPACE::random_device>(void* data, FILE* file)
 {
-  (void) data; (void) file;
+  (void) data; (void)file;
+  return RES_BAD_OP;
+}
+
+template<typename RNG>
+static res_T
+rng_cxx_read_cstr(void* data, const char* cstr)
+{
+  std::stringstream stream;
+  RNG* rng = (RNG*)data;
+  ASSERT(rng && cstr && cstr[strlen(cstr)-1] == '\n');
+  stream << std::string(cstr);
+  stream >> *rng;
+  return stream.fail() ? RES_IO_ERR : RES_OK;
+}
+
+template<>
+res_T
+rng_cxx_read_cstr<RAN_NAMESPACE::random_device>(void* data, const char* cstr)
+{
+  (void)data, (void)cstr;
   return RES_BAD_OP;
 }
 
@@ -318,7 +391,9 @@ const struct ssp_rng_type ssp_rng_mt19937_64 = {
   rng_cxx_get<RAN_NAMESPACE::mt19937_64>,
   rng_cxx_discard<RAN_NAMESPACE::mt19937_64>,
   rng_cxx_read<RAN_NAMESPACE::mt19937_64>,
+  rng_cxx_read_cstr<RAN_NAMESPACE::mt19937_64>,
   rng_cxx_write<RAN_NAMESPACE::mt19937_64>,
+  rng_cxx_write_cstr<RAN_NAMESPACE::mt19937_64>,
   rng_cxx_entropy<RAN_NAMESPACE::mt19937_64>,
   RAN_NAMESPACE::mt19937_64::min(),
   RAN_NAMESPACE::mt19937_64::max(),
@@ -334,7 +409,9 @@ const struct ssp_rng_type ssp_rng_ranlux48 = {
   rng_cxx_get<RAN_NAMESPACE::ranlux48>,
   rng_cxx_discard<RAN_NAMESPACE::ranlux48>,
   rng_cxx_read<RAN_NAMESPACE::ranlux48>,
+  rng_cxx_read_cstr<RAN_NAMESPACE::ranlux48>,
   rng_cxx_write<RAN_NAMESPACE::ranlux48>,
+  rng_cxx_write_cstr<RAN_NAMESPACE::ranlux48>,
   rng_cxx_entropy<RAN_NAMESPACE::ranlux48>,
   RAN_NAMESPACE::ranlux48::min(),
   RAN_NAMESPACE::ranlux48::max(),
@@ -350,7 +427,9 @@ const struct ssp_rng_type ssp_rng_random_device = {
   rng_cxx_get<RAN_NAMESPACE::random_device>,
   rng_cxx_discard<RAN_NAMESPACE::random_device>,
   rng_cxx_read<RAN_NAMESPACE::random_device>,
+  rng_cxx_read_cstr<RAN_NAMESPACE::random_device>,
   rng_cxx_write<RAN_NAMESPACE::random_device>,
+  rng_cxx_write_cstr<RAN_NAMESPACE::random_device>,
   rng_cxx_entropy<RAN_NAMESPACE::random_device>,
   RAN_NAMESPACE::random_device::min(),
   RAN_NAMESPACE::random_device::max(),
@@ -390,7 +469,9 @@ const struct ssp_rng_type ssp_rng_threefry = {
   rng_cxx_get<threefry_T>,
   rng_cxx_discard<threefry_T>,
   rng_cxx_read<threefry_T>,
+  rng_cxx_read_cstr<threefry_T>,
   rng_cxx_write<threefry_T>,
+  rng_cxx_write_cstr<threefry_T>,
   rng_cxx_entropy<threefry_T>,
   threefry_T::min(),
   threefry_T::max(),
@@ -407,7 +488,9 @@ const struct ssp_rng_type ssp_rng_aes = {
   rng_cxx_get<aes_T>,
   rng_cxx_discard<aes_T>,
   rng_cxx_read<aes_T>,
+  rng_cxx_read_cstr<aes_T>,
   rng_cxx_write<aes_T>,
+  rng_cxx_write_cstr<aes_T>,
   rng_cxx_entropy<aes_T>,
   aes_T::min(),
   aes_T::max(),
@@ -643,12 +726,30 @@ ssp_rng_read(struct ssp_rng* rng, FILE* stream)
 }
 
 res_T
+ssp_rng_read_cstr(struct ssp_rng* rng, const char* cstr)
+{
+  if(!rng || !cstr) return RES_BAD_ARG;
+  return rng->type.read_cstr(rng->state, cstr);
+}
+
+res_T
 ssp_rng_write(const struct ssp_rng* rng, FILE* stream)
 {
   if(!rng || !stream) return RES_BAD_ARG;
   return rng->type.write(rng->state, stream);
 }
 
+res_T
+ssp_rng_write_cstr
+  (const struct ssp_rng* rng,
+   char* buf, 
+   const size_t bufsz,
+   size_t* len)
+{
+  if(!rng) return RES_BAD_ARG;
+  return rng->type.write_cstr(rng->state, buf, bufsz, len);
+}
+
 double
 ssp_rng_entropy(const struct ssp_rng* rng)
 {
diff --git a/src/ssp_rng_proxy.c b/src/ssp_rng_proxy.c
@@ -31,6 +31,7 @@
 
 #include "ssp_rng_c.h"
 
+#include <rsys/dynamic_array_char.h>
 #include <rsys/mutex.h>
 #include <rsys/ref_count.h>
 #include <rsys/signal.h>
@@ -38,12 +39,19 @@
 
 #include <limits.h>
 
-#define BUCKET_SIZE_DEFAULT 1000000
+#define BUCKET_SIZE_DEFAULT 1000000 /* #RNs per bucket */
+#define STATE_CACHE_HINT_MAX_SIZE (32*(1024*1024)) /* 32 MB */
 
-/* FIFO list of RNG states */
+/* Cache of RNG states */
 struct rng_state_cache {
-  FILE* stream; /* Stream in which the RNG states are stored */
-  long head, tail; /* Position onto the head/tail `states' stream */
+  struct darray_char state; /* Save the next RNG state with 'no_wstream' */
+  struct darray_char state_scratch; /* Scracth state buffer */
+  FILE* stream; /* Stream into which the RNG states are stored */
+  size_t state_pitch; /* #RNs between 2 cached states */
+  size_t nstates; /* #cached states */
+  long read, write; /* Offset into the stream where to read/write RNG states */
+  int no_wstream; /* Define if the RNG states are no more written to a stream */
+  int no_rstream; /* Define if the RNG states are no more read from a stream */
 };
 
 CLBK(rng_proxy_cb_T, ARG1(const struct ssp_rng_proxy*));
@@ -88,7 +96,7 @@ struct ssp_rng_proxy {
 };
 
 /* Return a RNG with a pool of `bucket_size' indenpendant random numbers. Each
- * pool are ensure to be independant per `bucket_id' in [0, N) and per function
+ * pool are ensured to be independant per `bucket_id' in [0, N) and per function
  * call, i.e. calling this function X times with the same bucket_id will
  * provide X different random pools.
  *
@@ -107,16 +115,58 @@ rng_proxy_next_ran_pool
   (struct ssp_rng_proxy* proxy,
    const size_t bucket_id);
 
+/* Write the RNG state into buf. State data are terminated by a null char */
+static res_T
+rng_write_cstr
+  (const struct ssp_rng* rng,
+   struct darray_char* buf,
+   size_t* out_len) /* May be NULL. String length without the null char */
+{
+  size_t len;
+  res_T res = RES_OK;
+  ASSERT(rng && buf);
+
+  /* Write the RNG state into a temporary buffer */
+  res = ssp_rng_write_cstr
+    (rng, darray_char_data_get(buf), darray_char_size_get(buf), &len);
+  if(res != RES_OK) goto error;
+
+  /* Not sufficient space to store the state */
+  if(len >= darray_char_size_get(buf)) {
+    res = darray_char_resize(buf, len + 1/*null char*/);
+    if(res != RES_OK) goto error;
+
+    res = ssp_rng_write_cstr
+      (rng, darray_char_data_get(buf), darray_char_size_get(buf), &len);
+    if(res != RES_OK) goto error;
+    ASSERT(len + 1/*null char*/ == darray_char_size_get(buf));
+  }
+
+  if(out_len) *out_len = len;
+
+exit:
+  return res;
+error:
+  goto exit;
+}
+
 /*******************************************************************************
  * Cache of RNG states
  ******************************************************************************/
 static res_T
-rng_state_cache_init(struct rng_state_cache* cache)
+rng_state_cache_init
+  (struct mem_allocator* allocator,
+   const size_t state_pitch, /* #RNs between cached states */
+   struct rng_state_cache* cache)
 {
   ASSERT(cache);
+  memset(cache, 0, sizeof(*cache));
+  darray_char_init(allocator, &cache->state);
+  darray_char_init(allocator, &cache->state_scratch);
   cache->stream = tmpfile();
   if(!cache->stream) return RES_IO_ERR;
-  cache->head = cache->tail = ftell(cache->stream);
+  cache->read = cache->write = ftell(cache->stream);
+  cache->state_pitch = state_pitch;
   return RES_OK;
 }
 
@@ -125,48 +175,126 @@ rng_state_cache_release(struct rng_state_cache* cache)
 {
   ASSERT(cache);
   if(cache->stream) fclose(cache->stream);
+  darray_char_release(&cache->state);
+  darray_char_release(&cache->state_scratch);
 }
 
 static char
 rng_state_cache_is_empty(struct rng_state_cache* cache)
 {
   ASSERT(cache);
-  return cache->head == cache->tail;
+  return cache->nstates == 0;
 }
 
 static res_T
 rng_state_cache_read(struct rng_state_cache* cache, struct ssp_rng* rng)
 {
-  res_T res;
+  res_T res = RES_OK;
   ASSERT(cache && rng && !rng_state_cache_is_empty(cache));
 
-  /* Read the rng state from the stream */
-  fseek(cache->stream, cache->head, SEEK_SET);
-  res = ssp_rng_read(rng, cache->stream);
-  if(res != RES_OK) return res;
-  cache->head = ftell(cache->stream);
-
-  /* Flush the state cache stream if there is no more RNG state */
-  if(rng_state_cache_is_empty(cache)) {
+  if(!cache->no_rstream
+  && cache->read == cache->write
+  && cache->nstates == 1/* A state is saved in 'cache->state' */) {
+    /* There is not more data cached into the stream. Close the stream and do
+     * not rely anymore on the proxy RNG to generate the RNG states */
     fclose(cache->stream);
-    cache->stream = tmpfile();
-    if(!cache->stream) return RES_IO_ERR;
-    cache->head = cache->tail = ftell(cache->stream);
+    cache->stream = NULL;
+    cache->no_rstream = 1;
   }
 
-  return RES_OK;
+  /* Read the cached RNG state from the stream */
+  if(!cache->no_rstream) {
+    fseek(cache->stream, cache->read, SEEK_SET);
+    res = ssp_rng_read(rng, cache->stream);
+    if(res != RES_OK) goto error;
+    cache->read = ftell(cache->stream);
+
+    /* The fp reaches the end of the cached data */
+    if(cache->read >= STATE_CACHE_HINT_MAX_SIZE) {
+      cache->read = 0;
+    }
+
+    /* Remove one cached states */
+    cache->nstates -= 1;
+
+  /* Generate the next RNG state and load the cached one */
+  } else {
+    /* Copy the cached RNG state */
+    res = darray_char_copy(&cache->state_scratch, &cache->state);
+    if(res != RES_OK) goto error;
+
+    /* Load the cached RNG state */
+    res = ssp_rng_read_cstr(rng, darray_char_cdata_get(&cache->state));
+    if(res != RES_OK) goto error;
+
+    /* Setup the next RNG state */
+    res = ssp_rng_discard(rng, cache->state_pitch);
+    if(res != RES_OK) goto error;
+
+    /* Save the next RNG state */
+    res = rng_write_cstr(rng, &cache->state, NULL);
+    if(res != RES_OK) goto error;
+
+    /* Setup the current RNG state */
+    res = ssp_rng_read_cstr(rng, darray_char_cdata_get(&cache->state_scratch));
+    if(res != RES_OK) goto error;
+  }
+
+exit:
+  return res;
+error:
+  goto exit;
 }
 
 static res_T
 rng_state_cache_write(struct rng_state_cache* cache, struct ssp_rng* rng)
 {
-  res_T res;
+  res_T res = RES_OK;
   ASSERT(cache && rng);
-  fseek(cache->stream, cache->tail, SEEK_SET);
-  res = ssp_rng_write(rng, cache->stream);
-  if(res != RES_OK) return res;
-  cache->tail = ftell(cache->stream);
-  return RES_OK;
+
+  if(cache->no_wstream) goto exit; /* Do not cache the submitted state */
+
+  fseek(cache->stream, cache->write, SEEK_SET);
+  if(rng_state_cache_is_empty(cache) || cache->write > cache->read) {
+    /* Directly write the RNG state into the cache stream */
+    res = ssp_rng_write(rng, cache->stream);
+    if(res != RES_OK) goto error;
+    cache->write = ftell(cache->stream);
+
+    /* The fp exceed the amount of cached data */
+    if(cache->write >= STATE_CACHE_HINT_MAX_SIZE) {
+      cache->write = 0;
+    }
+
+  } else {
+    size_t len;
+    res = rng_write_cstr(rng, &cache->state, &len);
+    if(res != RES_OK) goto error;
+
+    if(len > (size_t)(cache->read - cache->write)) {
+      /* No sufficient space into the cache stream to save the RNG state */
+      cache->no_wstream = 1;
+    } else {
+      /* Write the RNG state into the cached stream */
+      size_t sz;
+      sz = fwrite(darray_char_cdata_get(&cache->state), 1, len, cache->stream);
+      if(sz != len) { res = RES_IO_ERR; goto error; }
+      cache->write = ftell(cache->stream);
+
+      /* The fp exceed the amount of cached data */
+      if(cache->write >= STATE_CACHE_HINT_MAX_SIZE) {
+        cache->write = 0;
+      }
+    }
+  }
+
+  /* Update the number of cached states */
+  cache->nstates += 1;
+
+exit:
+  return res;
+error:
+  goto exit;
 }
 
 /*******************************************************************************
@@ -224,6 +352,13 @@ rng_bucket_read(void* data, FILE* file)
 }
 
 static res_T
+rng_bucket_read_cstr(void* data, const char* cstr)
+{
+  (void)data, (void)cstr;
+  return RES_BAD_OP;
+}
+
+static res_T
 rng_bucket_write(const void* data, FILE* file)
 {
   (void)data, (void)file;
@@ -231,6 +366,17 @@ rng_bucket_write(const void* data, FILE* file)
 }
 
 static res_T
+rng_bucket_write_cstr
+  (const void* data,
+   char* buf,
+   const size_t bufsz,
+   size_t* len)
+{
+  (void)data, (void)buf, (void)bufsz, (void)len;
+  return RES_BAD_OP;
+}
+
+static res_T
 rng_bucket_init(struct mem_allocator* allocator, void* data)
 {
   struct rng_bucket* rng = (struct rng_bucket*)data;
@@ -280,7 +426,9 @@ static const struct ssp_rng_type RNG_BUCKET_NULL = {
   rng_bucket_get,
   rng_bucket_discard,
   rng_bucket_read,
+  rng_bucket_read_cstr,
   rng_bucket_write,
+  rng_bucket_write_cstr,
   rng_bucket_entropy,
   INT_MAX, /* Min dummy value */
   0, /* Max dummy value */
@@ -341,12 +489,15 @@ rng_proxy_clear(struct ssp_rng_proxy* proxy)
 }
 
 static res_T
-rng_proxy_setup(struct ssp_rng_proxy* proxy, const size_t nbuckets)
+rng_proxy_setup
+  (struct ssp_rng_proxy* proxy,
+   const size_t sequence_pitch, /* #RNs between 2 consecutive sequences */
+   const size_t nbuckets)
 {
   size_t ibucket;
   res_T res = RES_OK;
 
-  ASSERT(proxy && nbuckets);
+  ASSERT(proxy && sequence_pitch && nbuckets);
   rng_proxy_clear(proxy);
 
   sa_add(proxy->states, nbuckets);
@@ -354,7 +505,8 @@ rng_proxy_setup(struct ssp_rng_proxy* proxy, const size_t nbuckets)
   sa_add(proxy->buckets, nbuckets);
 
   FOR_EACH(ibucket, 0, nbuckets) {
-    res = rng_state_cache_init(proxy->states+ibucket);
+    res = rng_state_cache_init
+      (proxy->allocator, sequence_pitch, proxy->states+ibucket);
     if(res != RES_OK) goto error;
     res = ssp_rng_create(proxy->allocator, &proxy->type, proxy->pools+ibucket);
     if(res != RES_OK) goto error;
@@ -378,7 +530,7 @@ rng_proxy_release(ref_T* ref)
   sa_release(proxy->states);
   sa_release(proxy->pools);
   sa_release(proxy->buckets);
-  SSP(rng_ref_put(proxy->rng));
+  if(proxy->rng) SSP(rng_ref_put(proxy->rng));
   if(proxy->mutex) mutex_destroy(proxy->mutex);
   MEM_RM(proxy->allocator, proxy);
 }
@@ -393,124 +545,106 @@ ssp_rng_proxy_create
    const size_t nbuckets,
    struct ssp_rng_proxy** out_proxy)
 {
+  struct ssp_rng_proxy_create2_args args = SSP_RNG_PROXY_CREATE2_ARGS_NULL;
   const size_t sz = BUCKET_SIZE_DEFAULT * nbuckets;
-  return ssp_rng_proxy_create2
-    (mem_allocator, type, 0, sz, sz, nbuckets, out_proxy);
+  args.type = type;
+  args.sequence_offset = 0;
+  args.sequence_size = sz;
+  args.sequence_pitch = sz;
+  args.nbuckets = nbuckets;
+  return ssp_rng_proxy_create2(mem_allocator, &args, out_proxy);
 }
 
 res_T
-ssp_rng_proxy_create2
+ssp_rng_proxy_create_from_rng
   (struct mem_allocator* mem_allocator,
-   const struct ssp_rng_type* type,
-   const size_t sequence_offset, /* #RNs before the 1st valid sequence */
-   const size_t sequence_size, /* #RNs in a sequence */
-   const size_t sequence_pitch, /* #RNs between 2 consecutive sequences */
-   const size_t nbuckets, /* #buckets in a sequence */
+   const struct ssp_rng* rng,
+   const size_t nbuckets,
    struct ssp_rng_proxy** out_proxy)
 {
-  struct mem_allocator* allocator = NULL;
-  struct ssp_rng_proxy* proxy = NULL;
-  size_t i;
-  res_T res = RES_OK;
-
-  if(!type || !out_proxy || !sequence_size || sequence_pitch < sequence_size
-  || !nbuckets || sequence_size < nbuckets) {
-    res = RES_BAD_ARG;
-    goto error;
-  }
-
-  allocator = mem_allocator ? mem_allocator : &mem_default_allocator;
-  proxy = (struct ssp_rng_proxy*)
-    MEM_CALLOC(allocator, 1, sizeof(struct ssp_rng_proxy));
-  if(!proxy) {
-    res = RES_MEM_ERR;
-    goto error;
-  }
-  proxy->allocator = allocator;
-  ref_init(&proxy->ref);
-  proxy->bucket_size = sequence_size / nbuckets;
-  proxy->sequence_bias = sequence_pitch - (proxy->bucket_size * nbuckets);
-
-  res = ssp_rng_create(allocator, type, &proxy->rng);
-  if(res != RES_OK) goto error;
-  proxy->type = *type;
-
-  res = ssp_rng_discard(proxy->rng, sequence_offset);
-  if(res != RES_OK) goto error;
-
-  proxy->mutex = mutex_create();
-  if(!proxy->mutex) {
-    res = RES_MEM_ERR;
-    goto error;
-  }
-
-  FOR_EACH(i, 0, RNG_PROXY_SIGS_COUNT__) {
-    SIG_INIT(proxy->signals + i);
-  }
-
-  res = rng_proxy_setup(proxy, nbuckets);
-  if(res != RES_OK) goto error;
-
-exit:
-  if(out_proxy) *out_proxy = proxy;
-  return res;
-error:
-  if(proxy) {
-    SSP(rng_proxy_ref_put(proxy));
-    proxy = NULL;
-  }
-  goto exit;
+  struct ssp_rng_proxy_create2_args args = SSP_RNG_PROXY_CREATE2_ARGS_NULL;
+  const size_t sz = BUCKET_SIZE_DEFAULT * nbuckets;
+  args.rng = rng;
+  args.sequence_offset = 0;
+  args.sequence_size = sz;
+  args.sequence_pitch = sz;
+  args.nbuckets = nbuckets;
+  return ssp_rng_proxy_create2(mem_allocator, &args, out_proxy);
 }
 
 res_T
-ssp_rng_proxy_create_from_rng
+ssp_rng_proxy_create2
   (struct mem_allocator* mem_allocator,
-   const struct ssp_rng* rng,
-   const size_t nbuckets,
+   const struct ssp_rng_proxy_create2_args* args,
    struct ssp_rng_proxy** out_proxy)
 {
+  struct darray_char buf;
   struct mem_allocator* allocator = NULL;
   struct ssp_rng_proxy* proxy = NULL;
-  struct ssp_rng_type type;
-  FILE* stream = NULL;
   size_t i;
   res_T res = RES_OK;
 
-  if(!rng || !out_proxy || !nbuckets) {
+  darray_char_init(mem_allocator, &buf);
+
+  if(!args
+  || !out_proxy
+  || !args->sequence_size
+  || !args->nbuckets
+  || (!args->type && !args->rng)
+  || args->sequence_pitch < args->sequence_size
+  || args->sequence_size < args->nbuckets) {
     res = RES_BAD_ARG;
     goto error;
   }
 
   allocator = mem_allocator ? mem_allocator : &mem_default_allocator;
-  proxy = (struct ssp_rng_proxy*)
-    MEM_CALLOC(allocator, 1, sizeof(struct ssp_rng_proxy));
+  proxy = (struct ssp_rng_proxy*)MEM_CALLOC(allocator, 1, sizeof(*proxy));
   if(!proxy) {
     res = RES_MEM_ERR;
     goto error;
   }
   proxy->allocator = allocator;
   ref_init(&proxy->ref);
-  proxy->bucket_size = BUCKET_SIZE_DEFAULT;
-  proxy->sequence_bias = 1;
+  proxy->bucket_size = args->sequence_size / args->nbuckets;
+  proxy->sequence_bias =
+    args->sequence_pitch - (proxy->bucket_size * args->nbuckets);
 
-  res = ssp_rng_get_type(rng, &type);
-  if(res != RES_OK) goto error;
+  /* Create the proxy RNG in its default state */
+  if(!args->rng) {
+    res = ssp_rng_create(allocator, args->type, &proxy->rng);
+    if(res != RES_OK) goto error;
+    proxy->type = *args->type;
 
-  res = ssp_rng_create(allocator, &type, &proxy->rng);
-  if(res != RES_OK) goto error;
-  proxy->type = type;
+  /* Create the proxy RNG from a submitted RNG state */
+  } else {
+    size_t len;
 
-  stream = tmpfile();
-  if(!stream) {
-    res = RES_IO_ERR;
-    goto error;
-  }
+    /* Create the RNG proxy of the type of the submitted RNG. Simply Ignore the
+     * submitted RNG type if any */
+    res = ssp_rng_get_type(args->rng, &proxy->type);
+    if(res != RES_OK) goto error;
 
-  res = ssp_rng_write(rng, stream);
-  if(res != RES_OK) goto error;
+    /* Bucket RNG is not allowed to be a proxy RNG */
+    if(proxy->type.init == rng_bucket_init) {
+      res = RES_BAD_ARG;
+      goto error;
+    }
 
-  rewind(stream);
-  res = ssp_rng_read(proxy->rng, stream);
+    res = ssp_rng_create(allocator, &proxy->type, &proxy->rng);
+    if(res != RES_OK) goto error;
+
+    /* Initialise the RNG proxy state from the state of the submitted RNG */
+    res = ssp_rng_write_cstr(args->rng, NULL, 0, &len);
+    if(res != RES_OK) goto error;
+    res = darray_char_resize(&buf, len+1/*Null char*/);
+    if(res != RES_OK) goto error;
+    res = ssp_rng_write_cstr(args->rng, darray_char_data_get(&buf), len+1, &len);
+    if(res != RES_OK) goto error;
+    res = ssp_rng_read_cstr(proxy->rng, darray_char_cdata_get(&buf));
+    if(res != RES_OK) goto error;
+  }
+
+  res = ssp_rng_discard(proxy->rng, args->sequence_offset);
   if(res != RES_OK) goto error;
 
   proxy->mutex = mutex_create();
@@ -523,11 +657,11 @@ ssp_rng_proxy_create_from_rng
     SIG_INIT(proxy->signals + i);
   }
 
-  res = rng_proxy_setup(proxy, nbuckets);
+  res = rng_proxy_setup(proxy, args->sequence_pitch, args->nbuckets);
   if(res != RES_OK) goto error;
 
 exit:
-  if(stream) fclose(stream);
+  darray_char_release(&buf);
   if(out_proxy) *out_proxy = proxy;
   return res;
 error:
diff --git a/src/test_ssp_rng.c b/src/test_ssp_rng.c
@@ -51,7 +51,9 @@ test_rng(const struct ssp_rng_type* type)
   uint64_t datai1[NRAND];
   double datad[NRAND];
   float dataf[NRAND];
+  size_t len;
   char buf[512];
+  char* cstr = NULL;
   int i, j;
   res_T r;
   const char can_set = (type != &ssp_rng_random_device);
@@ -180,7 +182,7 @@ test_rng(const struct ssp_rng_type* type)
   time_dump(&t0, TIME_SEC|TIME_MSEC|TIME_USEC, NULL, buf, sizeof(buf));
   printf("1,000,000 random numbers in %s\n", buf);
 
-  if (can_have_entropy) {
+  if(can_have_entropy) {
     printf("Entropy for this implementation and system: %f\n",
       ssp_rng_entropy(rng));
   }
@@ -192,6 +194,15 @@ test_rng(const struct ssp_rng_type* type)
   CHK(ssp_rng_write(NULL, stream) == RES_BAD_ARG);
   CHK(ssp_rng_write(rng, stream) == (can_rw ? RES_OK : RES_BAD_OP));
 
+  CHK(ssp_rng_write_cstr(NULL, NULL, 0, &len) == RES_BAD_ARG);
+  CHK(ssp_rng_write_cstr(rng, NULL, 0, NULL) == (can_rw ? RES_OK : RES_BAD_OP));
+  CHK(ssp_rng_write_cstr(rng, NULL, 0, &len) == (can_rw ? RES_OK : RES_BAD_OP));
+  cstr = mem_calloc(len+1, 1);
+  CHK(ssp_rng_write_cstr(rng, cstr, len+1, NULL) == (can_rw ? RES_OK : RES_BAD_OP));
+
+  /* Reserialize the RNG state */
+  CHK(ssp_rng_write(rng, stream) == (can_rw ? RES_OK : RES_BAD_OP));
+
   FOR_EACH(i, 0, NRAND)
     datai0[i] = ssp_rng_get(rng);
 
@@ -200,14 +211,37 @@ test_rng(const struct ssp_rng_type* type)
   CHK(ssp_rng_read(NULL, stream) == RES_BAD_ARG);
   CHK(ssp_rng_read(rng, stream) == (can_rw ? RES_IO_ERR : RES_BAD_OP));
   rewind(stream);
+
+  /* Read the first state of the stream */
   CHK(ssp_rng_read(rng, stream) == (can_rw ? RES_OK : RES_BAD_OP));
+  if(can_rw) {
+    FOR_EACH(i, 0, NRAND) {
+      uint64_t rn = ssp_rng_get(rng);
+      CHK(rn == datai0[i]);
+    }
+  }
+  
+  /* Read the second state of the stream */
+  CHK(ssp_rng_read(rng, stream) == (can_rw ? RES_OK : RES_BAD_OP)); 
+  if(can_rw) {
+    FOR_EACH(i, 0, NRAND) {
+      uint64_t rn = ssp_rng_get(rng);
+      CHK(rn == datai0[i]);
+    }
+  }
 
-  if (can_rw) {
+  /* Read the RNG state from an in memory buffer */
+  CHK(ssp_rng_read_cstr(NULL, cstr) == RES_BAD_ARG);
+  CHK(ssp_rng_read_cstr(rng, NULL) == RES_BAD_ARG);
+  CHK(ssp_rng_read_cstr(rng, cstr) == (can_rw ? RES_OK : RES_BAD_OP));
+  if(can_rw) {
     FOR_EACH(i, 0, NRAND) {
       uint64_t rn = ssp_rng_get(rng);
       CHK(rn == datai0[i]);
     }
   }
+
+  mem_rm(cstr);
   fclose(stream);
 
   CHK(ssp_rng_ref_put(rng) == RES_OK);
diff --git a/src/test_ssp_rng_proxy.c b/src/test_ssp_rng_proxy.c
@@ -73,52 +73,52 @@ test_creation(void)
 static void
 test_creation2(void)
 {
-  const struct ssp_rng_type* type = &ssp_rng_mt19937_64;
+  struct ssp_rng_proxy_create2_args args = SSP_RNG_PROXY_CREATE2_ARGS_NULL;
   struct ssp_rng_proxy* proxy;
 
-  CHK(ssp_rng_proxy_create2(NULL, NULL, 0, 0, 0, 0, NULL) == RES_BAD_ARG);
-  CHK(ssp_rng_proxy_create2(NULL, type, 0, 0, 0, 0, NULL) == RES_BAD_ARG);
-  CHK(ssp_rng_proxy_create2(NULL, NULL, 0, 32, 0, 0, NULL) == RES_BAD_ARG);
-  CHK(ssp_rng_proxy_create2(NULL, type, 0, 32, 0, 0, NULL) == RES_BAD_ARG);
-  CHK(ssp_rng_proxy_create2(NULL, NULL, 0, 0, 32, 0, NULL) == RES_BAD_ARG);
-  CHK(ssp_rng_proxy_create2(NULL, type, 0, 0, 32, 0, NULL) == RES_BAD_ARG);
-  CHK(ssp_rng_proxy_create2(NULL, NULL, 0, 32, 32, 0, NULL) == RES_BAD_ARG);
-  CHK(ssp_rng_proxy_create2(NULL, type, 0, 32, 32, 0, NULL) == RES_BAD_ARG);
-  CHK(ssp_rng_proxy_create2(NULL, NULL, 0, 0, 0, 1, NULL) == RES_BAD_ARG);
-  CHK(ssp_rng_proxy_create2(NULL, type, 0, 0, 0, 1, NULL) == RES_BAD_ARG);
-  CHK(ssp_rng_proxy_create2(NULL, NULL, 0, 32, 0, 1, NULL) == RES_BAD_ARG);
-  CHK(ssp_rng_proxy_create2(NULL, type, 0, 32, 0, 1, NULL) == RES_BAD_ARG);
-  CHK(ssp_rng_proxy_create2(NULL, NULL, 0, 0, 32, 1, NULL) == RES_BAD_ARG);
-  CHK(ssp_rng_proxy_create2(NULL, type, 0, 0, 32, 1, NULL) == RES_BAD_ARG);
-  CHK(ssp_rng_proxy_create2(NULL, NULL, 0, 32, 32, 1, NULL) == RES_BAD_ARG);
-  CHK(ssp_rng_proxy_create2(NULL, type, 0, 32, 32, 1, NULL) == RES_BAD_ARG);
-  CHK(ssp_rng_proxy_create2(NULL, NULL, 0, 0, 0, 0, &proxy) == RES_BAD_ARG);
-  CHK(ssp_rng_proxy_create2(NULL, type, 0, 0, 0, 0, &proxy) == RES_BAD_ARG);
-  CHK(ssp_rng_proxy_create2(NULL, NULL, 0, 32, 0, 0, &proxy) == RES_BAD_ARG);
-  CHK(ssp_rng_proxy_create2(NULL, type, 0, 32, 0, 0, &proxy) == RES_BAD_ARG);
-  CHK(ssp_rng_proxy_create2(NULL, NULL, 0, 0, 32, 0, &proxy) == RES_BAD_ARG);
-  CHK(ssp_rng_proxy_create2(NULL, type, 0, 0, 32, 0, &proxy) == RES_BAD_ARG);
-  CHK(ssp_rng_proxy_create2(NULL, NULL, 0, 32, 32, 0, &proxy) == RES_BAD_ARG);
-  CHK(ssp_rng_proxy_create2(NULL, type, 0, 32, 32, 0, &proxy) == RES_BAD_ARG);
-  CHK(ssp_rng_proxy_create2(NULL, NULL, 0, 0, 0, 1, &proxy) == RES_BAD_ARG);
-  CHK(ssp_rng_proxy_create2(NULL, type, 0, 0, 0, 1, &proxy) == RES_BAD_ARG);
-  CHK(ssp_rng_proxy_create2(NULL, NULL, 0, 32, 0, 1, &proxy) == RES_BAD_ARG);
-  CHK(ssp_rng_proxy_create2(NULL, type, 0, 32, 0, 1, &proxy) == RES_BAD_ARG);
-  CHK(ssp_rng_proxy_create2(NULL, NULL, 0, 0, 32, 1, &proxy) == RES_BAD_ARG);
-  CHK(ssp_rng_proxy_create2(NULL, type, 0, 0, 32, 1, &proxy) == RES_BAD_ARG);
-  CHK(ssp_rng_proxy_create2(NULL, NULL, 0, 32, 32, 1, &proxy) == RES_BAD_ARG);
-  CHK(ssp_rng_proxy_create2(NULL, type, 0, 32, 32, 1, &proxy) == RES_OK);
+  CHK(ssp_rng_proxy_create2(NULL, &args, &proxy) == RES_BAD_ARG);
+
+  args.type = &ssp_rng_mt19937_64;
+  args.sequence_offset = 0;
+  args.sequence_size = 32;
+  args.sequence_pitch = 32;
+  args.nbuckets = 1;
+  CHK(ssp_rng_proxy_create2(NULL, &args, NULL) == RES_BAD_ARG);
+
+  args.type = NULL;
+  CHK(ssp_rng_proxy_create2(NULL, &args, &proxy) == RES_BAD_ARG);
+  args.type = &ssp_rng_mt19937_64;
+  args.sequence_size= 0;
+  CHK(ssp_rng_proxy_create2(NULL, &args, &proxy) == RES_BAD_ARG);
+  args.sequence_size = 32;
+  args.sequence_pitch = 0;
+  CHK(ssp_rng_proxy_create2(NULL, &args, &proxy) == RES_BAD_ARG);
+  args.sequence_pitch = 31;
+  CHK(ssp_rng_proxy_create2(NULL, &args, &proxy) == RES_BAD_ARG);
+  args.sequence_pitch = 32;
+  args.nbuckets = 0;
+  CHK(ssp_rng_proxy_create2(NULL, &args, &proxy) == RES_BAD_ARG);
+  args.nbuckets = 33;
+  CHK(ssp_rng_proxy_create2(NULL, &args, &proxy) == RES_BAD_ARG);
+  args.nbuckets = 1;
+  CHK(ssp_rng_proxy_create2(NULL, &args, &proxy) == RES_OK);
   CHK(ssp_rng_proxy_ref_put(proxy) == RES_OK);
 
-  CHK(ssp_rng_proxy_create2(NULL, type, 0, 32, 32, 4, &proxy) == RES_OK);
+  args.nbuckets = 4;
+  CHK(ssp_rng_proxy_create2(NULL, &args, &proxy) == RES_OK);
   CHK(ssp_rng_proxy_ref_put(proxy) == RES_OK);
 
-  CHK(ssp_rng_proxy_create2(NULL, type, 0, 32, 32, 32, &proxy) == RES_OK);
+  args.nbuckets = 5;
+  CHK(ssp_rng_proxy_create2(NULL, &args, &proxy) == RES_OK);
   CHK(ssp_rng_proxy_ref_put(proxy) == RES_OK);
 
-  CHK(ssp_rng_proxy_create2(NULL, type, 0, 32, 32, 33, &proxy) == RES_BAD_ARG);
-  CHK(ssp_rng_proxy_create2
-    (&mem_default_allocator, type, 1024, 32, 32, 4, &proxy) == RES_OK);
+  args.nbuckets = 32;
+  CHK(ssp_rng_proxy_create2(NULL, &args, &proxy) == RES_OK);
+  CHK(ssp_rng_proxy_ref_put(proxy) == RES_OK);
+
+  args.sequence_offset = 1024;
+  args.nbuckets = 4;
+  CHK(ssp_rng_proxy_create2(NULL, &args, &proxy) == RES_OK);
   CHK(ssp_rng_proxy_ref_put(proxy) == RES_OK);
 }
 
@@ -165,6 +165,7 @@ test_rng_from_proxy(void)
 static void
 test_rng_from_proxy2(void)
 {
+  struct ssp_rng_proxy_create2_args args = SSP_RNG_PROXY_CREATE2_ARGS_NULL;
   struct ssp_rng_proxy* proxy[2];
   struct ssp_rng* rng[4];
   const size_t block_sz = 99;
@@ -177,8 +178,11 @@ test_rng_from_proxy2(void)
   CHK((r[2] = mem_alloc(sizeof(uint64_t)*nrands)) != NULL);
   CHK((r[3] = mem_alloc(sizeof(uint64_t)*nrands)) != NULL);
 
-  CHK(ssp_rng_proxy_create2
-    (NULL, &ssp_rng_mt19937_64, 0, block_sz, block_sz, 4, &proxy[0]) == RES_OK);
+  args.type = &ssp_rng_mt19937_64;
+  args.sequence_size = block_sz;
+  args.sequence_pitch = block_sz;
+  args.nbuckets = 4;
+  CHK(ssp_rng_proxy_create2(NULL, &args, &proxy[0]) == RES_OK);
 
   CHK(ssp_rng_proxy_create_rng(proxy[0], 0, &rng[0]) == RES_OK);
   CHK(ssp_rng_proxy_create_rng(proxy[0], 1, &rng[1]) == RES_OK);
@@ -210,11 +214,16 @@ test_rng_from_proxy2(void)
   CHK(ssp_rng_ref_put(rng[1]) == RES_OK);
   CHK(ssp_rng_ref_put(rng[2]) == RES_OK);
   CHK(ssp_rng_ref_put(rng[3]) == RES_OK);
-  
-  CHK(ssp_rng_proxy_create2(NULL, &ssp_rng_mt19937_64, 
-    0, block_sz, 2*block_sz, 2, &proxy[0]) == RES_OK);
-  CHK(ssp_rng_proxy_create2(NULL, &ssp_rng_mt19937_64, 
-    block_sz, block_sz, 2*block_sz, 2, &proxy[1]) == RES_OK);
+
+  args.type = &ssp_rng_mt19937_64;
+  args.sequence_size = block_sz;
+  args.sequence_pitch = 2*block_sz;
+  args.nbuckets = 2;
+
+  args.sequence_offset = 0;
+  CHK(ssp_rng_proxy_create2(NULL, &args, &proxy[0]) == RES_OK);
+  args.sequence_offset = block_sz;
+  CHK(ssp_rng_proxy_create2(NULL, &args, &proxy[1]) == RES_OK);
 
   CHK(ssp_rng_proxy_create_rng(proxy[0], 0, &rng[0]) == RES_OK);
   CHK(ssp_rng_proxy_create_rng(proxy[0], 1, &rng[1]) == RES_OK);
@@ -289,6 +298,7 @@ test_multi_proxies(void)
 static void
 test_proxy_from_rng(void)
 {
+  struct ssp_rng_proxy_create2_args args = SSP_RNG_PROXY_CREATE2_ARGS_NULL;
   struct ssp_rng_proxy* proxy;
   struct ssp_rng* rng[4];
   struct ssp_rng_type type;
@@ -333,6 +343,35 @@ test_proxy_from_rng(void)
       FOR_EACH(k, 0, j) CHK(r[k] != r[j]);
     }
   }
+
+  FOR_EACH(i, 1, 4) CHK(ssp_rng_ref_put(rng[i]) == RES_OK);
+
+  args.rng = rng[0];
+  args.sequence_offset = 0;
+  args.sequence_size = 4000;
+  args.sequence_pitch = 4000;
+  args.nbuckets = 4;
+  CHK(ssp_rng_proxy_create2(NULL, &args, &proxy) == RES_BAD_ARG);
+  CHK(ssp_rng_ref_put(rng[0]) == RES_OK);
+
+  CHK(ssp_rng_create(NULL, &ssp_rng_threefry, &rng[0]) == RES_OK);
+  CHK(ssp_rng_discard(rng[0], 100) == RES_OK);
+
+  args.rng = rng[0];
+  CHK(ssp_rng_proxy_create2(NULL, &args, &proxy) == RES_OK);
+  CHK(ssp_rng_ref_put(rng[0]) == RES_OK);
+  FOR_EACH(i, 0, 4) {
+    CHK(ssp_rng_proxy_create_rng(proxy, i, &rng[i]) == RES_OK);
+  }
+
+  FOR_EACH(i, 0, NRANDS) {
+    FOR_EACH(j, 0, 4) {
+      r[j] = ssp_rng_get(rng[j]);
+      FOR_EACH(k, 0, j) CHK(r[k] != r[j]);
+    }
+  }
+
+  CHK(ssp_rng_proxy_ref_put(proxy) == RES_OK);
   FOR_EACH(i, 0, 4) CHK(ssp_rng_ref_put(rng[i]) == RES_OK);
 }
 
@@ -417,6 +456,82 @@ test_write(void)
   fclose(stream);
 }
 
+static void
+test_cache(void)
+{
+  struct ssp_rng_proxy_create2_args args = SSP_RNG_PROXY_CREATE2_ARGS_NULL;
+  struct ssp_rng_proxy* proxy;
+  struct ssp_rng* rng0;
+  struct ssp_rng* rng1;
+  struct ssp_rng* rng;
+  const size_t nrands = 20000;
+  size_t i;
+
+  /* Create a proxy with a very small sequence size of 2 RNs per bucket in
+   * order to maximize the number of cached states. Furthermore, use the
+   * Mersenne Twister RNG type since its internal state is the greatest one of
+   * the proposed builtin type and is thus the one that will fill quickly the
+   * cache stream. */
+  args.type = &ssp_rng_mt19937_64;
+  args.sequence_size = 4;
+  args.sequence_pitch = 4;
+  args.nbuckets = 2;
+
+  /* Simply test that the RNs generated by the proxy are the same thant the
+   * ones generated by a regular RNG. Since each RNG invocation are
+   * interleaved, the cache pressure is very low, at most 1 RNG state is
+   * cached. */
+  CHK(ssp_rng_proxy_create2(NULL, &args, &proxy) == RES_OK);
+  CHK(ssp_rng_proxy_create_rng(proxy, 0, &rng0) == RES_OK);
+  CHK(ssp_rng_proxy_create_rng(proxy, 1, &rng1) == RES_OK);
+  CHK(ssp_rng_create(NULL, &ssp_rng_mt19937_64, &rng) == RES_OK);
+  FOR_EACH(i, 0, nrands*2) {
+    if((i / 2) % 2) {
+      CHK(ssp_rng_get(rng1) == ssp_rng_get(rng));
+    } else {
+      CHK(ssp_rng_get(rng0) == ssp_rng_get(rng));
+    }
+  }
+  CHK(ssp_rng_proxy_ref_put(proxy) == RES_OK);
+  CHK(ssp_rng_ref_put(rng0) == RES_OK);
+  CHK(ssp_rng_ref_put(rng1) == RES_OK);
+  CHK(ssp_rng_ref_put(rng) == RES_OK);
+
+  CHK(ssp_rng_proxy_create2(NULL, &args, &proxy) == RES_OK);
+  CHK(ssp_rng_proxy_create_rng(proxy, 0, &rng0) == RES_OK);
+  CHK(ssp_rng_proxy_create_rng(proxy, 1, &rng1) == RES_OK);
+  CHK(ssp_rng_create(NULL, &ssp_rng_mt19937_64, &rng) == RES_OK);
+
+  /* Generate several RNs for the first RNG only to make under pressure the
+   * cache stream of 'rng1'. The cache stream limit is set to 32 MB and the
+   * size of a Mersenne Twister RNG state is greater than 6 KB. Consquently,
+   * ~5500 RNG states will exceed the cache stream, i.e. 5500*2 = 11000
+   * random generations (since there is 2 RNs per bucket). Above this limit,
+   * 'rng1' will not rely anymore on the proxy RNG to manage its state.
+   *
+   * For both RNGs, ensure that the generated RNs are the expected ones by
+   * comparing them to the ones generated by a regular RNG */
+  FOR_EACH(i, 0, nrands) {
+    CHK(ssp_rng_get(rng0) == ssp_rng_get(rng));
+    if(i % 2) CHK(ssp_rng_discard(rng, 2) == RES_OK);
+  }
+  CHK(ssp_rng_ref_put(rng) == RES_OK);
+
+  /* Check the cache mechanisme of rng1 */
+  CHK(ssp_rng_create(NULL, &ssp_rng_mt19937_64, &rng) == RES_OK);
+  CHK(ssp_rng_discard(rng, 2) == RES_OK);
+  FOR_EACH(i, 0, nrands) {
+    CHK(ssp_rng_get(rng1) == ssp_rng_get(rng));
+    if(i % 2) CHK(ssp_rng_discard(rng, 2) == RES_OK);
+  }
+  CHK(ssp_rng_ref_put(rng) == RES_OK);
+
+  CHK(ssp_rng_proxy_ref_put(proxy) == RES_OK);
+  CHK(ssp_rng_ref_put(rng0) == RES_OK);
+  CHK(ssp_rng_ref_put(rng1) == RES_OK);
+
+}
+
 int
 main(int argc, char** argv)
 {
@@ -429,6 +544,7 @@ main(int argc, char** argv)
   test_proxy_from_rng();
   test_read();
   test_write();
+  test_cache();
   CHK(mem_allocated_size() == 0);
   return 0;
 }