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#include <string.h>
#include "pci.h"
#include "pcilib.h"
#include <Python.h>
#include "views.h"
#include "error.h"
#include <strings.h>
#include <stdlib.h>
/**
* this function calls the python script and the function "evaluate" in it to evaluate the given formula
*@param[in] the formula to be evaluated
*@return the integer value of the evaluated formula (maybe go to float instead)
*/
static pcilib_register_value_t
pcilib_view_eval_formula(char* formula){
/* initialization of python interpreter*/
Py_Initialize();
/*compilation of the formula as python string*/
PyCodeObject* code=(PyCodeObject*)Py_CompileString(formula,"test",Py_eval_input);
PyObject* main_module = PyImport_AddModule("__parser__");
PyObject* global_dict = PyModule_GetDict(main_module);
PyObject* local_dict = PyDict_New();
/*evaluation of formula*/
PyObject* obj = PyEval_EvalCode(code, global_dict, local_dict);
double c=PyFloat_AsDouble(obj);
/* close interpreter*/
Py_Finalize();
pcilib_register_value_t value=(pcilib_register_value_t)c;
return value;
}
/**
*
*/
static char*
pcilib_view_compute_formula(pcilib_t* ctx, char* formula,char* reg_value_string){
char *src=(char*)formula;
char *reg,*regend;
char *dst=malloc(6*strlen(src)*sizeof(char));
char temp[66];
pcilib_register_value_t value;
int offset=0;
/*we get recursively all registers of string , and if they are not equel to '@reg', then we get their value and put it in formula*/
while(1){
reg = strchr(src, '@');
if (!reg) {
strcpy(dst, src);
break;
}
regend = strchr(reg + 1, '@');
if (!regend){
pcilib_error("formula corresponding is malformed");
return NULL;
}
strncpy(dst+offset, src, reg - src);
offset+=reg-src;
*regend = 0;
/* Now (reg + 1) contains the proper register name, you can compare
it to reg/value and either get the value of current register or the
specified one. Add it to the register*/
if(!(strcasecmp(reg,"@value")) || !(strcasecmp(reg,"@reg")) || !(strcasecmp(reg,"@self"))){
strncpy(dst+offset,reg_value_string,strlen(reg_value_string));
offset+=strlen(reg_value_string);
}else{
pcilib_read_register(ctx, NULL,reg+1,&value);
sprintf(temp,"%i",value);
strncpy(dst+offset,temp,strlen(temp));
offset+=strlen(temp);
}
src = regend + 1;
}
return dst;
}
static int
pcilib_view_apply_formula(pcilib_t* ctx, char* formula, pcilib_register_value_t* reg_value)
{
char reg_value_string[66]; /* to register reg_value as a string, need to check the length*/
sprintf(reg_value_string,"%u",*reg_value);
formula=pcilib_view_compute_formula(ctx,formula,reg_value_string);
if(!(formula)){
pcilib_error("computing of formula failed");
return PCILIB_ERROR_INVALID_DATA;
}
/* evaluation of the formula*/
*reg_value= pcilib_view_eval_formula(formula);
return 0;
}
/**
* function to apply a unit for the views of type formula
*@param[in] view - the view we want to get the units supported
*@param[in] unit - the requested unit in which we want to get the value
*@param[in,out] value - the number that needs to get transformed
*/
static void
pcilib_view_apply_unit(pcilib_transform_unit_t unit_desc, const char* unit,pcilib_register_value_t* value){
char* formula;
formula=malloc(strlen(unit_desc.transform_formula)*sizeof(char));
strcpy(formula,unit_desc.transform_formula);
pcilib_view_apply_formula(NULL,formula, value);
free(formula);
}
int pcilib_read_view(pcilib_t *ctx, const char *bank, const char *regname, const char *unit, size_t value_size, void *value)
{
int i,j,err=0;
pcilib_register_value_t temp_value;
/* we get the index of the register to find the corresponding register context*/
if((i=pcilib_find_register(ctx,bank,regname))==PCILIB_REGISTER_INVALID){
pcilib_error("can't get the index of the register %s", regname);
return PCILIB_ERROR_INVALID_REQUEST;
}
/* we get the value of the register, as we will apply the view on it*/
err=pcilib_read_register_by_id(ctx,i,&temp_value);
if(err){
pcilib_error("can't read the register %s value before applying views : error %i",regname);
return PCILIB_ERROR_INVALID_REQUEST;
}
for(j=0;ctx->register_ctx[i].views[j].name;j++){
if(!(strcasecmp(ctx->register_ctx[i].views[j].base_unit.name,unit))){/*if we asked for the unit "name"*/
err=ctx->register_ctx[i].views[j].op(ctx,ctx->register_ctx[i].views[j].parameters,value/*the command name*/,0,&temp_value,0,&(ctx->register_ctx[i].views[j]));
if(err){
pcilib_error("can't write to the register with the enum view");
return PCILIB_ERROR_FAILED;
}
break;
}else if(!(strcasecmp(ctx->register_ctx[i].views[j].name,(char*)unit))){/*in this case we asked for the name of the view in unit*/
err=ctx->register_ctx[i].views[j].op(ctx,ctx->register_ctx[i].views[j].parameters,(char*)unit, 0, &temp_value,0,&(ctx->register_ctx[i].views[j]));
if(err){
pcilib_error("can't write to the register with the formula view %s", unit);
return PCILIB_ERROR_FAILED;
}
*(pcilib_register_value_t*)value=temp_value;
break;
}
return 0;
}
pcilib_error("the view asked and the register do not correspond");
return PCILIB_ERROR_NOTAVAILABLE;
}
/**
* function to write to a register using a view
*/
int pcilib_write_view(pcilib_t *ctx, const char *bank, const char *regname, const char *unit, size_t value_size,void* value){
int i,j;
pcilib_register_value_t temp_value;
int err;
/* we get the index of the register to find the corresponding register context*/
if((i=pcilib_find_register(ctx,bank,regname))==PCILIB_REGISTER_INVALID){
pcilib_error("can't get the index of the register %s", regname);
return PCILIB_ERROR_INVALID_REQUEST;
}
for(j=0;ctx->register_ctx[i].views[j].name;j++){
if(!(strcasecmp(ctx->register_ctx[i].views[j].base_unit.name,unit))){/*if we asked for the unit "name"*/
err=ctx->register_ctx[i].views[j].op(ctx,ctx->register_ctx[i].views[j].parameters,value/*the command name*/,1,&temp_value,0,&(ctx->register_ctx[i].views[j]));
if(err){
pcilib_error("can't write to the register with the enum view");
return PCILIB_ERROR_FAILED;
}
break;
}else if(!(strcasecmp(ctx->register_ctx[i].views[j].name,(char*)unit))){/*in this case we asked for then name of the view in unit*/
temp_value=*(pcilib_register_value_t*)value /*the value to put in the register*/;
err=ctx->register_ctx[i].views[j].op(ctx,ctx->register_ctx[i].views[j].parameters, (char*)unit, 1, &temp_value,0,&(ctx->register_ctx[i].views[j]));
if(err){
pcilib_error("can't write to the register with the formula view %s", unit);
return PCILIB_ERROR_FAILED;
}
break;
}
pcilib_write_register(ctx,bank,regname,temp_value);
return 0;
}
pcilib_error("the view asked and the register do not correspond");
return PCILIB_ERROR_NOTAVAILABLE;
}
/**
* always: viewval=view params=view params
* write: name=enum command regval:the value corresponding to the command
*/
int operation_enum(pcilib_t *ctx, void *params, char* name, int view2reg, pcilib_register_value_t *regval, size_t viewval_size, void* viewval){
int j,k;
if(view2reg==1){
for(j=0; ((pcilib_enum_t*)(params))[j].name;j++){
if(!(strcasecmp(((pcilib_enum_t*)(params))[j].name,name))){
*regval=((pcilib_enum_t*)(params))[j].value;
return 0;
}
}
}else if (view2reg==0){
for(j=0; ((pcilib_enum_t*)(params))[j].name;j++){
if (*regval<((pcilib_enum_t*)(params))[j].max && *regval>((pcilib_enum_t*)(params))[j].min){
name=(char*)realloc(name,strlen(((pcilib_enum_t*)(params))[j].name)*sizeof(char));
strncpy(name,((pcilib_enum_t*)(params))[j].name, strlen(((pcilib_enum_t*)(params))[j].name));
k=strlen(((pcilib_enum_t*)(params))[j].name);
name[k]='\0';
return 0;
}
}
}
return PCILIB_ERROR_INVALID_REQUEST;
}
/**
* pârams: view params unit=unit wanted regval:value before formula/after formula viewval=view
*/
int operation_formula(pcilib_t *ctx, void *params, char* unit, int view2reg, pcilib_register_value_t *regval, size_t viewval_size, void* viewval){
int j=0;
pcilib_register_value_t value=0;
char* formula=NULL;
if(view2reg==0){
if(!(strcasecmp(unit, ((pcilib_view_t*)viewval)->base_unit.name))){
formula=malloc(sizeof(char)*strlen(((pcilib_formula_t*)params)->read_formula));
if(!(formula)){
pcilib_error("can't allocate memory for the formula");
return PCILIB_ERROR_MEMORY;
}
strncpy(formula,((pcilib_formula_t*)params)->read_formula,strlen(((pcilib_formula_t*)params)->read_formula));
pcilib_view_apply_formula(ctx,formula,regval);
return 0;
}
for(j=0; ((pcilib_view_t*)viewval)->base_unit.transforms[j].name;j++){
if(!(strcasecmp(((pcilib_view_t*)viewval)->base_unit.transforms[j].name,unit))){
/* when we have found the correct view of type formula, we apply the formula, that get the good value for return*/
formula=malloc(sizeof(char)*strlen(((pcilib_formula_t*)params)->read_formula));
if(!(formula)){
pcilib_error("can't allocate memory for the formula");
return PCILIB_ERROR_MEMORY;
}
strncpy(formula,((pcilib_formula_t*)params)->read_formula,strlen(((pcilib_formula_t*)params)->read_formula));
pcilib_view_apply_formula(ctx,formula, regval);
pcilib_view_apply_unit(((pcilib_view_t*)viewval)->base_unit.transforms[j],unit,&value);
return 0;
}
}
}else if(view2reg==1){
if(!(strcasecmp(unit, ((pcilib_view_t*)viewval)->base_unit.name))){
formula=malloc(sizeof(char)*strlen(((pcilib_formula_t*)params)->write_formula));
strncpy(formula,((pcilib_formula_t*)params)->write_formula,strlen(((pcilib_formula_t*)params)->write_formula));
pcilib_view_apply_formula(ctx,formula,regval);
return 0;
}
for(j=0;((pcilib_view_t*)viewval)->base_unit.transforms[j].name;j++){
if(!(strcasecmp(((pcilib_view_t*)viewval)->base_unit.transforms[j].name,unit))){
/* when we have found the correct view of type formula, we apply the formula, that get the good value for return*/
formula=malloc(sizeof(char)*strlen(((pcilib_formula_t*)params)->write_formula));
strncpy(formula,((pcilib_formula_t*)params)->write_formula,strlen((( pcilib_formula_t*)params)->write_formula));
pcilib_view_apply_unit(((pcilib_view_t*)viewval)->base_unit.transforms[j],unit,&value);
pcilib_view_apply_formula(ctx,formula,regval);
/* we maybe need some error checking there , like temp_value >min and <max*/
return 0;
}
}
}
free(formula);
return PCILIB_ERROR_INVALID_REQUEST;
}
/**
* function to populate ctx views, as we could do for registers or banks
*/
int pcilib_add_views(pcilib_t *ctx, size_t n, const pcilib_view_t* views) {
pcilib_view_t *views2;
size_t size;
if (!n) {
for (n = 0; views[n].name; n++);
}
if ((ctx->num_views + n + 1) > ctx->alloc_views) {
for (size = ctx->alloc_views; size < 2 * (n + ctx->num_views + 1); size<<=1);
views2 = (pcilib_view_t*)realloc(ctx->views, size * sizeof(pcilib_view_t));
if (!views2) return PCILIB_ERROR_MEMORY;
ctx->views = views2;
ctx->alloc_views = size;
}
memcpy(ctx->views + ctx->num_views, views, n * sizeof(pcilib_view_t));
memset(ctx->views + ctx->num_views + n, 0, sizeof(pcilib_view_t));
ctx->num_views += n;
return 0;
}
int pcilib_add_units(pcilib_t *ctx, size_t n, const pcilib_unit_t* units) {
pcilib_unit_t *units2;
size_t size;
if (!n) {
for (n = 0; units[n].name[0]; n++);
}
if ((ctx->num_units + n + 1) > ctx->alloc_units) {
for (size = ctx->alloc_units; size < 2 * (n + ctx->num_units + 1); size<<=1);
units2 = (pcilib_unit_t*)realloc(ctx->units, size * sizeof(pcilib_unit_t));
if (!units2) return PCILIB_ERROR_MEMORY;
ctx->units = units2;
ctx->alloc_units = size;
}
memcpy(ctx->units + ctx->num_units, units, n * sizeof(pcilib_unit_t));
memset(ctx->units + ctx->num_units + n, 0, sizeof(pcilib_unit_t));
ctx->num_units += n;
return 0;
}
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