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Code restyled. Added restyling script. Code for determinant is not working because it gets stuck in an infinite recursion loop.

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This commit is contained in:
François Coppens 2021-05-19 15:23:19 +02:00
parent 0e5bbbbffb
commit 17c8a1c7a0
5 changed files with 263 additions and 223 deletions
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119
include/SM_Helpers.hpp
View File

@ -82,52 +82,101 @@ T1 *outProd(T1 *vec1, T2 *vec2, unsigned int M) {
return C;
}
template <typename T> T matDet(T **A, unsigned int M) {
int det = 0, p, h, k, i, j;
T **temp = new T *[M];
for (int i = 0; i < M; i++)
temp[i] = new T[M];
if (M == 1) {
return A[0][0];
} else if (M == 2) {
det = (A[0][0] * A[1][1] - A[0][1] * A[1][0]);
return det;
} else {
for (p = 0; p < M; p++) {
h = 0;
k = 0;
for (i = 1; i < M; i++) {
for (j = 0; j < M; j++) {
if (j == p) {
continue;
}
temp[h][k] = A[i][j];
k++;
if (k == M - 1) {
h++;
k = 0;
}
}
}
det = det + A[0][p] * pow(-1, p) * matDet(temp, M - 1);
}
return det;
}
delete[] temp;
}
// // This flat version doesn't work. Get's stuck in an infinite recursion loop.
// template <typename T> T determinant(T *A, unsigned int M) {
// std::cout << "determinant() called..." << std::endl;
// T det = 0;
// int p, h, k, i, j;
// T *temp = new T[M * M];
// if (M == 1) {
// return A[0];
// } else if (M == 2) {
// det = (A[0] * A[3] - A[1] * A[2]);
// return det;
// } else {
// for (p = 0; p < M; p++) {
// h = 0;
// k = 0;
// for (i = 1; i < M; i++) {
// for (j = 0; j < M; j++) {
// if (j == p) {
// continue;
// }
// temp[h * M + k] = A[i * M + j];
// k++;
// if (k == M - 1) {
// h++;
// k = 0;
// }
// }
// }
// det = det + A[p] * pow(-1, p) * determinant(temp, M - 1);
// }
// return det;
// }
// delete temp;
// }
// // This version also gets stuck in a recursion loop
// template <typename T> T determinant(T **A, unsigned int M) {
// int p, h, k, i, j;
// T det = 0;
// T **temp = new T *[M];
// for (int i = 0; i < M; i++) {
// temp[i] = new T[M];
// }
// if (M == 1) {
// return A[0][0];
// } else if (M == 2) {
// det = (A[0][0] * A[1][1] - A[0][1] * A[1][0]);
// return det;
// } else {
// for (p = 0; p < M; p++) {
// h = 0;
// k = 0;
// for (i = 1; i < M; i++) {
// for (j = 0; j < M; j++) {
// if (j == p) {
// continue;
// }
// temp[h][k] = A[i][j];
// k++;
// if (k == M - 1) {
// h++;
// k = 0;
// }
// }
// }
// det = det + A[0][p] * pow(-1, p) * determinant(temp, M - 1);
// }
// return det;
// }
// delete[] temp;
// }
template <typename T> bool is_identity(T *A, unsigned int M, double tolerance) {
for (unsigned int i = 0; i < M; i++) {
for (unsigned int j = 0; j < M; j++) {
if (i == j && std::fabs(A[i * M + j] - 1) > tolerance)
if (i == j && std::fabs(A[i * M + j] - 1) > tolerance) {
return false;
if (i != j && std::fabs(A[i * M + j]) > tolerance)
}
if (i != j && std::fabs(A[i * M + j]) > tolerance) {
return false;
}
}
}
return true;
}
template <typename T>
bool is_identity2(T *A, unsigned int M, double tolerance) {
double det = determinant(A, M);
if (det - 1 > tolerance) {
return false;
}
return true;
}
template <typename T> T norm_max(T *A, unsigned int Dim) {
T res = 0;
for (unsigned int i = 0; i < Dim; i++) {

6
include/vfc_hashmap.h
View File

@ -87,7 +87,7 @@ void vfc_hashmap_destroy(vfc_hashmap_t map) {
// allocate and initialize the map
vfc_hashmap_t vfc_hashmap_create() {
vfc_hashmap_t map = (vfc_hashmap_t) calloc(1, sizeof(struct vfc_hashmap_st));
vfc_hashmap_t map = (vfc_hashmap_t)calloc(1, sizeof(struct vfc_hashmap_st));
if (map == NULL) {
return NULL;
@ -96,7 +96,7 @@ vfc_hashmap_t vfc_hashmap_create() {
map->capacity = (size_t)(1 << map->nbits);
map->mask = map->capacity - 1;
// an item is now a value and a key
map->items = (size_t *) calloc(map->capacity, 2 * sizeof(size_t));
map->items = (size_t *)calloc(map->capacity, 2 * sizeof(size_t));
if (map->items == NULL) {
vfc_hashmap_destroy(map);
return NULL;
@ -160,7 +160,7 @@ static void maybe_rehash_map(vfc_hashmap_t map) {
map->nbits++;
map->capacity = (size_t)(1 << map->nbits);
map->mask = map->capacity - 1;
map->items = (size_t *) calloc(map->capacity, 2 * sizeof(size_t));
map->items = (size_t *)calloc(map->capacity, 2 * sizeof(size_t));
map->nitems = 0;
map->n_deleted_items = 0;
for (ii = 0; ii < old_capacity; ii++) {

333
include/vfc_probe.h
View File

@ -1,254 +1,217 @@
/*
* This file defines "vfc_probes", a hashtable-based structure which can be used
* to place "probes" in a code and store the different values of test variables.
* These test results can then be exported in a CSV file, and used to generate a
* Verificarlo test report.
*/
* This file defines "vfc_probes", a hashtable-based structure which can be used
* to place "probes" in a code and store the different values of test variables.
* These test results can then be exported in a CSV file, and used to generate a
* Verificarlo test report.
*/
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#include <stdio.h>
#include "vfc_hashmap.h"
#define VAR_NAME(var) #var // Simply returns the name of var into a string
#define VAR_NAME(var) #var // Simply returns the name of var into a string
/*
* A probe containing a double value as well as its key, which is needed when
* dumping the probes
*/
* A probe containing a double value as well as its key, which is needed when
* dumping the probes
*/
struct vfc_probe_node {
char * key;
double value;
char *key;
double value;
};
typedef struct vfc_probe_node vfc_probe_node;
/*
* The probes structure. It simply acts as a wrapper for a Verificarlo hashmap.
*/
* The probes structure. It simply acts as a wrapper for a Verificarlo hashmap.
*/
struct vfc_probes {
vfc_hashmap_t map;
vfc_hashmap_t map;
};
typedef struct vfc_probes vfc_probes;
/*
* Initialize an empty vfc_probes instance
*/
* Initialize an empty vfc_probes instance
*/
vfc_probes vfc_init_probes() {
vfc_probes probes;
probes.map = vfc_hashmap_create();
vfc_probes probes;
probes.map = vfc_hashmap_create();
return probes;
return probes;
}
/*
* Free all probes
*/
* Free all probes
*/
void vfc_free_probes(vfc_probes * probes) {
void vfc_free_probes(vfc_probes *probes) {
// Before freeing the map, iterate manually over all items to free the keys
vfc_probe_node * probe = NULL;
for(int i = 0; i < probes->map->capacity; i++) {
probe = (vfc_probe_node*) get_value_at(probes->map->items, i);
if(probe != NULL) {
if(probe->key != NULL) {
free(probe->key);
}
}
// Before freeing the map, iterate manually over all items to free the keys
vfc_probe_node *probe = NULL;
for (int i = 0; i < probes->map->capacity; i++) {
probe = (vfc_probe_node *)get_value_at(probes->map->items, i);
if (probe != NULL) {
if (probe->key != NULL) {
free(probe->key);
}
}
}
vfc_hashmap_free(probes->map);
vfc_hashmap_free(probes->map);
}
/*
* Helper function to generate the key from test and variable name
*/
* Helper function to generate the key from test and variable name
*/
char * gen_probe_key(char * testName, char * varName) {
char * key = (char *) malloc(strlen(testName) + strlen(varName) + 2);
strcpy(key, testName);
strcat(key, ",");
strcat(key, varName);
char *gen_probe_key(char *testName, char *varName) {
char *key = (char *)malloc(strlen(testName) + strlen(varName) + 2);
strcpy(key, testName);
strcat(key, ",");
strcat(key, varName);
return key;
return key;
}
/*
* Helper function to detect forbidden character ',' in the keys
*/
* Helper function to detect forbidden character ',' in the keys
*/
void validate_probe_key(char * str) {
unsigned int len = strlen(str);
void validate_probe_key(char *str) {
unsigned int len = strlen(str);
for(unsigned int i=0; i<len; i++) {
if(str[i] == ',') {
fprintf(
stderr,
"Error [verificarlo]: One of your probes has a ',' in its test \
for (unsigned int i = 0; i < len; i++) {
if (str[i] == ',') {
fprintf(stderr,
"Error [verificarlo]: One of your probes has a ',' in its test \
or variable name (\"%s\"), which is forbidden\n",
str
);
exit(1);
}
str);
exit(1);
}
}
}
/*
* Add a new probe. If an issue with the key is detected (forbidden characters or
* a duplicate key), an error will be thrown.
*/
* Add a new probe. If an issue with the key is detected (forbidden characters
* or a duplicate key), an error will be thrown.
*/
int vfc_put_probe(
vfc_probes * probes,
char * testName, char * varName,
double val
) {
int vfc_put_probe(vfc_probes *probes, char *testName, char *varName,
double val) {
if(probes == NULL) {
return 1;
}
if (probes == NULL) {
return 1;
}
// Make sure testName and varName don't contain any ',', which would
// interfere with the key/CSV encoding
validate_probe_key(testName);
validate_probe_key(varName);
// Make sure testName and varName don't contain any ',', which would
// interfere with the key/CSV encoding
validate_probe_key(testName);
validate_probe_key(varName);
// Get the key, which is : testName + "," + varName
char * key = gen_probe_key(testName, varName);
// Get the key, which is : testName + "," + varName
char *key = gen_probe_key(testName, varName);
// Look for a duplicate key
vfc_probe_node * oldProbe = (vfc_probe_node*) vfc_hashmap_get(
probes->map, vfc_hashmap_str_function(key)
);
// Look for a duplicate key
vfc_probe_node *oldProbe = (vfc_probe_node *)vfc_hashmap_get(
probes->map, vfc_hashmap_str_function(key));
if(oldProbe != NULL) {
if(strcmp(key, oldProbe->key) == 0) {
fprintf(
stderr,
"Error [verificarlo]: you have a duplicate error with one of \
if (oldProbe != NULL) {
if (strcmp(key, oldProbe->key) == 0) {
fprintf(stderr,
"Error [verificarlo]: you have a duplicate error with one of \
your probes (\"%s\"). Please make sure to use different names.\n",
key
);
exit(1);
}
key);
exit(1);
}
}
// Insert the element in the hashmap
vfc_probe_node * newProbe = (vfc_probe_node*) malloc(sizeof(vfc_probe_node));
newProbe->key = key;
newProbe->value = val;
// Insert the element in the hashmap
vfc_probe_node *newProbe = (vfc_probe_node *)malloc(sizeof(vfc_probe_node));
newProbe->key = key;
newProbe->value = val;
vfc_hashmap_insert(
probes->map, vfc_hashmap_str_function(key), newProbe
);
vfc_hashmap_insert(probes->map, vfc_hashmap_str_function(key), newProbe);
return 0;
}
/*
* Remove (free) an element from the hash table
*/
int vfc_remove_probe(vfc_probes *probes, char *testName, char *varName) {
if (probes == NULL) {
return 1;
}
// Get the key, which is : testName + "," + varName
char *key = gen_probe_key(testName, varName);
vfc_hashmap_remove(probes->map, vfc_hashmap_str_function(key));
return 0;
}
/*
* Return the number of probes stored in the hashmap
*/
unsigned int vfc_num_probes(vfc_probes *probes) {
return vfc_hashmap_num_items(probes->map);
}
/*
* Dump probes in a .csv file (the double values are converted to hex), then
* free it.
*/
int vfc_dump_probes(vfc_probes *probes) {
if (probes == NULL) {
return 1;
}
// Get export path from the VFC_PROBES_OUTPUT env variable
char *exportPath = getenv("VFC_PROBES_OUTPUT");
if (!exportPath) {
printf("Warning [verificarlo]: VFC_PROBES_OUTPUT is not set, probes will \
not be dumped\n");
vfc_free_probes(probes);
return 0;
}
}
FILE *fp = fopen(exportPath, "w");
/*
* Remove (free) an element from the hash table
*/
int vfc_remove_probe(vfc_probes * probes, char * testName, char * varName) {
if(probes == NULL) {
return 1;
}
// Get the key, which is : testName + "," + varName
char * key = gen_probe_key(testName, varName);
vfc_hashmap_remove(probes->map, vfc_hashmap_str_function(key));
return 0;
}
/*
* Return the number of probes stored in the hashmap
*/
unsigned int vfc_num_probes(vfc_probes * probes) {
return vfc_hashmap_num_items(probes->map);
}
/*
* Dump probes in a .csv file (the double values are converted to hex), then
* free it.
*/
int vfc_dump_probes(vfc_probes * probes) {
if(probes == NULL) {
return 1;
}
// Get export path from the VFC_PROBES_OUTPUT env variable
char* exportPath = getenv("VFC_PROBES_OUTPUT");
if(!exportPath) {
printf(
"Warning [verificarlo]: VFC_PROBES_OUTPUT is not set, probes will \
not be dumped\n"
);
vfc_free_probes(probes);
return 0;
}
FILE * fp = fopen(exportPath, "w");
if(fp == NULL) {
fprintf(
stderr,
if (fp == NULL) {
fprintf(stderr,
"Error [verificarlo]: impossible to open the CSV file to save your \
probes (\"%s\")\n",
exportPath
);
exit(1);
exportPath);
exit(1);
}
// First line gives the column names
fprintf(fp, "test,variable,value\n");
// Iterate over all table elements
vfc_probe_node *probe = NULL;
for (int i = 0; i < probes->map->capacity; i++) {
probe = (vfc_probe_node *)get_value_at(probes->map->items, i);
if (probe != NULL) {
fprintf(fp, "%s,%a\n", probe->key, probe->value);
}
}
// First line gives the column names
fprintf(fp, "test,variable,value\n");
fclose(fp);
// Iterate over all table elements
vfc_probe_node * probe = NULL;
for(int i = 0; i < probes->map->capacity; i++) {
probe = (vfc_probe_node*) get_value_at(probes->map->items, i);
if(probe != NULL) {
fprintf(
fp, "%s,%a\n",
probe->key,
probe->value
);
}
}
vfc_free_probes(probes);
fclose(fp);
vfc_free_probes(probes);
return 0;
return 0;
}

13
tests/test_h5.cpp
View File

@ -100,6 +100,19 @@ int test_cycle(H5File file, int cycle, std::string version, double tolerance) {
double res_max = residual_max(res, dim);
double res2 = residual_frobenius2(res, dim);
// double det;
// double **tmp = new double *[dim];
// for (int i = 0; i < dim; i++) {
// tmp[i] = new double[dim];
// for (int j = 0; j < dim; j++) {
// tmp[i][j] = res[i * dim + j];
// }
// }
// det = determinant(tmp, dim);
// delete[] tmp;
// std::cout << "Residual = " << version << " " << cycle << " " << res_max <<
// " "
// << res2 << " " << det << std::endl;
std::cout << "Residual = " << version << " " << cycle << " " << res_max << " "
<< res2 << std::endl;

15
tools/restyle.sh Executable file
View File

@ -0,0 +1,15 @@
#!/usr/bin/env bash
STYLE='--style=LLVM'
FORMATER='clang-format -i'
if [[ -z $SMVARS ]]
then
echo '$SMVARS is not set. Please source '/path/to/Sherman-Morrison/smvars.sh''
exit 1
fi
for ext in c cpp h hpp
do
find $SMROOT -type f -iname "*.${ext}" -exec echo "$FORMATER $STYLE" {} \;
done