END_TEST
START_TEST (test_L3FormulaFormatter_multiGT)
{
StringBuffer_t *sb = StringBuffer_create(42);
char *s = StringBuffer_getBuffer(sb);
ASTNode_t *n = ASTNode_create();
ASTNode_t *c = ASTNode_create();
ASTNode_setType(n, AST_RELATIONAL_GT);
s = SBML_formulaToL3String(n);
fail_unless( !strcmp(s, "gt()"), NULL );
ASTNode_setName(c, "x");
ASTNode_addChild(n, c);
s = SBML_formulaToL3String(n);
fail_unless( !strcmp(s, "gt(x)"), NULL );
safe_free(s);
c = ASTNode_create();
ASTNode_setName(c, "y");
ASTNode_addChild(n, c);
s = SBML_formulaToL3String(n);
fail_unless( !strcmp(s, "x > y"), NULL );
safe_free(s);
c = ASTNode_create();
ASTNode_setName(c, "z");
ASTNode_addChild(n, c);
s = SBML_formulaToL3String(n);
fail_unless( !strcmp(s, "gt(x, y, z)"), NULL );
safe_free(s);
ASTNode_free(n);
}
END_TEST
START_TEST (test_Rule_setMath1)
{
ASTNode_t *math = ASTNode_createWithType(AST_TIMES);
ASTNode_t *a = ASTNode_create();
ASTNode_t *b = ASTNode_create();
ASTNode_setName(a, "a");
ASTNode_setName(b, "b");
ASTNode_addChild(math, a);
ASTNode_addChild(math, b);
char *formula;
const ASTNode_t *math1;
int i = Rule_setMath(R, math);
fail_unless( i == LIBSBML_OPERATION_SUCCESS);
fail_unless( Rule_isSetMath(R) );
math1 = Rule_getMath(R);
fail_unless( math1 != NULL );
formula = SBML_formulaToString(math1);
fail_unless( formula != NULL );
fail_unless( !strcmp(formula, "a * b") );
ASTNode_free(math);
}
END_TEST
START_TEST (test_FormulaFormatter_multiPlusTimes)
{
StringBuffer_t *sb = StringBuffer_create(42);
char *s = StringBuffer_getBuffer(sb);
ASTNode_t *n = ASTNode_create();
ASTNode_t *c = ASTNode_create();
ASTNode_setType(n, AST_PLUS);
ASTNode_setName(c, "x");
ASTNode_addChild(n, c);
c = ASTNode_create();
ASTNode_setName(c, "y");
ASTNode_addChild(n, c);
c = ASTNode_create();
ASTNode_setName(c, "z");
ASTNode_addChild(n, c);
s = SBML_formulaToString(n);
fail_unless( !strcmp(s, "x + y + z"), NULL );
ASTNode_setType(n, AST_TIMES);
s = SBML_formulaToString(n);
fail_unless( !strcmp(s, "x * y * z"), NULL );
safe_free(s);
ASTNode_free(n);
}
END_TEST
START_TEST (test_SpeciesReference_setStoichiometryMath5)
{
SpeciesReference_t *sr1 =
SpeciesReference_create(1, 2);
StoichiometryMath_t * sm = StoichiometryMath_create(2, 4);
ASTNode_t *math = ASTNode_createWithType(AST_TIMES);
ASTNode_t *a = ASTNode_create();
ASTNode_t *b = ASTNode_create();
ASTNode_setName(a, "a");
ASTNode_setName(b, "b");
ASTNode_addChild(math, a);
ASTNode_addChild(math, b);
StoichiometryMath_setMath(sm, math);
int i = SpeciesReference_setStoichiometryMath(sr1, sm);
fail_unless( i == LIBSBML_UNEXPECTED_ATTRIBUTE);
fail_unless( !SpeciesReference_isSetStoichiometryMath(sr1) );
StoichiometryMath_free(sm);
SpeciesReference_free(sr1);
}
END_TEST
START_TEST (test_FormulaFormatter_multiAnd)
{
char *s;
ASTNode_t *n = ASTNode_create();
ASTNode_t *c = ASTNode_create();
ASTNode_setType(n, AST_LOGICAL_AND);
s = SBML_formulaToString(n);
fail_unless( !strcmp(s, "and()"), NULL );
safe_free(s);
ASTNode_setName(c, "x");
ASTNode_addChild(n, c);
s = SBML_formulaToString(n);
fail_unless( !strcmp(s, "and(x)"), NULL );
safe_free(s);
c = ASTNode_create();
ASTNode_setName(c, "y");
ASTNode_addChild(n, c);
s = SBML_formulaToString(n);
fail_unless( !strcmp(s, "and(x, y)"), NULL );
safe_free(s);
c = ASTNode_create();
ASTNode_setName(c, "z");
ASTNode_addChild(n, c);
s = SBML_formulaToString(n);
fail_unless( !strcmp(s, "and(x, y, z)"), NULL );
safe_free(s);
ASTNode_free(n);
}
END_TEST
START_TEST (test_SpeciesReference_setStoichiometryMath1)
{
StoichiometryMath_t * sm = StoichiometryMath_create(2, 4);
ASTNode_t *math = ASTNode_createWithType(AST_TIMES);
ASTNode_t *a = ASTNode_create();
ASTNode_t *b = ASTNode_create();
ASTNode_setName(a, "a");
ASTNode_setName(b, "b");
ASTNode_addChild(math, a);
ASTNode_addChild(math, b);
StoichiometryMath_setMath(sm, math);
int i = SpeciesReference_setStoichiometryMath(sr, sm);
fail_unless( i == LIBSBML_OPERATION_SUCCESS);
fail_unless( SpeciesReference_isSetStoichiometryMath(sr) );
fail_unless( SpeciesReference_getStoichiometry(sr) == 1 );
i = SpeciesReference_unsetStoichiometryMath(sr);
fail_unless( i == LIBSBML_OPERATION_SUCCESS);
fail_unless( !SpeciesReference_isSetStoichiometryMath(sr) );
StoichiometryMath_free(sm);
}
END_TEST
START_TEST (test_FormulaFormatter_multiPlus)
{
char *s;
ASTNode_t *n = ASTNode_create();
ASTNode_t *c = ASTNode_create();
ASTNode_setType(n, AST_PLUS);
s = SBML_formulaToString(n);
fail_unless( !strcmp(s, "0"), NULL );
safe_free(s);
ASTNode_setName(c, "x");
ASTNode_addChild(n, c);
s = SBML_formulaToString(n);
fail_unless( !strcmp(s, "x"), NULL );
safe_free(s);
c = ASTNode_create();
ASTNode_setName(c, "y");
ASTNode_addChild(n, c);
s = SBML_formulaToString(n);
fail_unless( !strcmp(s, "x + y"), NULL );
safe_free(s);
c = ASTNode_create();
ASTNode_setName(c, "z");
ASTNode_addChild(n, c);
s = SBML_formulaToString(n);
fail_unless( !strcmp(s, "x + y + z"), NULL );
safe_free(s);
ASTNode_free(n);
}
END_TEST
START_TEST (test_FormulaFormatter_multiDivide)
{
StringBuffer_t *sb = StringBuffer_create(42);
char *s = StringBuffer_getBuffer(sb);
ASTNode_t *n = ASTNode_create();
ASTNode_t *c = ASTNode_create();
ASTNode_setType(n, AST_DIVIDE);
s = SBML_formulaToString(n);
fail_unless( !strcmp(s, " / "), NULL );
ASTNode_setName(c, "x");
ASTNode_addChild(n, c);
s = SBML_formulaToString(n);
fail_unless( !strcmp(s, " / (x)"), NULL );
safe_free(s);
c = ASTNode_create();
ASTNode_setName(c, "y");
ASTNode_addChild(n, c);
s = SBML_formulaToString(n);
fail_unless( !strcmp(s, "x / y"), NULL );
safe_free(s);
c = ASTNode_create();
ASTNode_setName(c, "z");
ASTNode_addChild(n, c);
s = SBML_formulaToString(n);
fail_unless( !strcmp(s, "x / y / z"), NULL );
safe_free(s);
ASTNode_free(n);
}
END_TEST
START_TEST (test_L3FormulaFormatter_multiAnd)
{
StringBuffer_t *sb = StringBuffer_create(42);
char *s = StringBuffer_getBuffer(sb);
ASTNode_t *n = ASTNode_create();
ASTNode_t *c = ASTNode_create();
ASTNode_setType(n, AST_LOGICAL_AND);
s = SBML_formulaToL3String(n);
fail_unless( !strcmp(s, "and()"), NULL );
ASTNode_setName(c, "x");
ASTNode_addChild(n, c);
s = SBML_formulaToL3String(n);
fail_unless( !strcmp(s, "and(x)"), NULL );
safe_free(s);
c = ASTNode_create();
ASTNode_setName(c, "y");
ASTNode_addChild(n, c);
s = SBML_formulaToL3String(n);
fail_unless( !strcmp(s, "x && y"), NULL );
safe_free(s);
c = ASTNode_create();
ASTNode_setName(c, "z");
ASTNode_addChild(n, c);
s = SBML_formulaToL3String(n);
fail_unless( !strcmp(s, "x && y && z"), NULL );
safe_free(s);
ASTNode_free(n);
}
END_TEST
START_TEST (test_FormulaFormatter_multiOr)
{
StringBuffer_t *sb = StringBuffer_create(42);
char *s = StringBuffer_getBuffer(sb);
ASTNode_t *n = ASTNode_create();
ASTNode_t *c = ASTNode_create();
ASTNode_setType(n, AST_LOGICAL_OR);
s = SBML_formulaToString(n);
fail_unless( !strcmp(s, "or()"), NULL );
ASTNode_setName(c, "x");
ASTNode_addChild(n, c);
s = SBML_formulaToString(n);
fail_unless( !strcmp(s, "or(x)"), NULL );
safe_free(s);
c = ASTNode_create();
ASTNode_setName(c, "y");
ASTNode_addChild(n, c);
s = SBML_formulaToString(n);
fail_unless( !strcmp(s, "or(x, y)"), NULL );
safe_free(s);
c = ASTNode_create();
ASTNode_setName(c, "z");
ASTNode_addChild(n, c);
s = SBML_formulaToString(n);
fail_unless( !strcmp(s, "or(x, y, z)"), NULL );
safe_free(s);
ASTNode_free(n);
}
LIBSBML_CPP_NAMESPACE_USE
CK_CPPSTART
#endif
START_TEST (test_L3FormulaFormatter_isFunction)
{
ASTNode_t *n = ASTNode_create();
ASTNode_t *c = ASTNode_create();
ASTNode_setType(n, AST_NAME);
fail_unless( L3FormulaFormatter_isFunction(n, NULL) == 0, NULL );
ASTNode_setType(n, AST_CONSTANT_PI);
fail_unless( L3FormulaFormatter_isFunction(n, NULL) == 0, NULL );
ASTNode_setType(n, AST_LAMBDA);
fail_unless( L3FormulaFormatter_isFunction(n, NULL) == 1, NULL );
ASTNode_setType(n, AST_FUNCTION);
fail_unless( L3FormulaFormatter_isFunction(n, NULL) == 1, NULL );
ASTNode_setType(n, AST_LOGICAL_AND);
fail_unless( L3FormulaFormatter_isFunction(n, NULL) == 1, NULL );
ASTNode_setType(n, AST_RELATIONAL_EQ);
fail_unless( L3FormulaFormatter_isFunction(n, NULL) == 1, NULL );
ASTNode_setType(n, AST_PLUS);
fail_unless( L3FormulaFormatter_isFunction(n, NULL) == 1, NULL );
ASTNode_addChild(n, c);
ASTNode_setType(n, AST_LOGICAL_AND);
fail_unless( L3FormulaFormatter_isFunction(n, NULL) == 1, NULL );
ASTNode_setType(n, AST_RELATIONAL_EQ);
fail_unless( L3FormulaFormatter_isFunction(n, NULL) == 1, NULL );
ASTNode_setType(n, AST_PLUS);
fail_unless( L3FormulaFormatter_isFunction(n, NULL) == 1, NULL );
c = ASTNode_create();
ASTNode_addChild(n, c);
ASTNode_setType(n, AST_LOGICAL_AND);
fail_unless( L3FormulaFormatter_isFunction(n, NULL) == 0, NULL );
ASTNode_setType(n, AST_RELATIONAL_EQ);
fail_unless( L3FormulaFormatter_isFunction(n, NULL) == 0, NULL );
ASTNode_setType(n, AST_PLUS);
fail_unless( L3FormulaFormatter_isFunction(n, NULL) == 0, NULL );
ASTNode_free(n);
}
void post_ev_alter_tree_structure(Model_t *m, ASTNode_t **node_p, ASTNode_t *parent, int child_order){
ASTNode_t *divide_node, *times_node;
ASTNode_t *compartment_node;
ASTNode_t *node, *next_node;
unsigned int i;
Species_t *sp;
node = *node_p;
for(i=0; i<ASTNode_getNumChildren(node); i++){
next_node = ASTNode_getChild(node, i);
post_ev_alter_tree_structure(m, &next_node, *node_p, i);
}
if(ASTNode_getType(node) == AST_NAME){
for(i=0; i<Model_getNumSpecies(m); i++){
sp = (Species_t*)ListOf_get(Model_getListOfSpecies(m), i);
if(strcmp(Species_getId(sp), ASTNode_getName(node)) == 0){
if(!Species_getHasOnlySubstanceUnits(sp) && Compartment_getSpatialDimensions(Model_getCompartmentById(m, Species_getCompartment(sp))) != 0){/* use val/comp in calculation */
divide_node = ASTNode_createWithType(AST_DIVIDE);
compartment_node = ASTNode_createWithType(AST_NAME);
ASTNode_setName(compartment_node, Compartment_getId(Model_getCompartmentById(m, Species_getCompartment(sp))));
ASTNode_addChild(divide_node, node);
ASTNode_addChild(divide_node, compartment_node);
if(parent != NULL){
ASTNode_replaceChild(parent, child_order, divide_node);
}else{
*node_p = divide_node;
}
node = *node_p;
break;
}else if(Species_getHasOnlySubstanceUnits(sp) && Species_isSetInitialConcentration(sp) && Compartment_getSpatialDimensions(Model_getCompartmentById(m, Species_getCompartment(sp))) != 0){/* use val*comp in calculation */
times_node = ASTNode_createWithType(AST_TIMES);
compartment_node = ASTNode_createWithType(AST_NAME);
ASTNode_setName(compartment_node, Compartment_getId(Model_getCompartmentById(m, Species_getCompartment(sp))));
ASTNode_addChild(times_node, node);
ASTNode_addChild(times_node, compartment_node);
if(parent != NULL){
ASTNode_replaceChild(parent, child_order, times_node);
}else{
*node_p = times_node;
}
node = *node_p;
break;
}
}
}
}
return;
}
END_TEST
START_TEST (test_L3FormulaFormatter_collapseMinus)
{
StringBuffer_t *sb = StringBuffer_create(42);
char *s = StringBuffer_getBuffer(sb);
ASTNode_t *n = ASTNode_create();
ASTNode_t *c = ASTNode_create();
ASTNode_t *c2 = ASTNode_create();
ASTNode_t *c3 = ASTNode_create();
ASTNode_t *c4 = ASTNode_create();
L3ParserSettings_t* l3ps = L3ParserSettings_create();
ASTNode_setType(n, AST_MINUS);
ASTNode_setType(c, AST_MINUS);
ASTNode_addChild(n, c);
ASTNode_setType(c2, AST_MINUS);
ASTNode_addChild(c, c2);
ASTNode_setType(c3, AST_MINUS);
ASTNode_addChild(c2, c3);
ASTNode_setName(c4, "x");
ASTNode_addChild(c3, c4);
//default (false)
s = SBML_formulaToL3StringWithSettings(n, l3ps);
fail_unless( !strcmp(s, "----x"), NULL );
safe_free(s);
//explicit false
L3ParserSettings_setParseCollapseMinus(l3ps, 0);
s = SBML_formulaToL3StringWithSettings(n, l3ps);
fail_unless( !strcmp(s, "----x"), NULL );
safe_free(s);
//explicit true
L3ParserSettings_setParseCollapseMinus(l3ps, 1);
s = SBML_formulaToL3StringWithSettings(n, l3ps);
fail_unless( !strcmp(s, "x"), NULL );
safe_free(s);
ASTNode_free(n);
L3ParserSettings_free(l3ps);
}
void pre_ev_alter_tree_structure(ASTNode_t **node_p, ASTNode_t *parent, int child_order, ASTNode_t *delay_math){
unsigned int i;
ASTNode_t *node, *next_node, *delay_node;
node = *node_p;
for(i=0; i<ASTNode_getNumChildren(node); i++){
next_node = ASTNode_getChild(node, i);
pre_ev_alter_tree_structure(&next_node, *node_p, i, delay_math);
}
if(ASTNode_getType(node) == AST_NAME){
delay_node = ASTNode_createWithType(AST_FUNCTION_DELAY);
ASTNode_addChild(delay_node, node);
ASTNode_addChild(delay_node, delay_math);
if(parent != NULL){
ASTNode_replaceChild(parent, child_order, delay_node);
}else{
*node_p = delay_node;
}
}
}
void alg_alter_tree_structure(ASTNode_t **node_p, ASTNode_t *parent, int child_order) {
ASTNode_t *node, *left, *right;
ASTNode_t *times_node, *one_node;
node = *node_p;
if((left=ASTNode_getLeftChild(node)) != NULL) {
alg_alter_tree_structure(&left, node, 0);
}
if((right=ASTNode_getRightChild(node)) != NULL) {
alg_alter_tree_structure(&right, node, 1);
}
if(ASTNode_getType(node) == AST_NAME) {
times_node = ASTNode_createWithType(AST_TIMES);
one_node = ASTNode_createWithType(AST_INTEGER);
ASTNode_setInteger(one_node, 1);
ASTNode_addChild(times_node, one_node);
ASTNode_addChild(times_node, node);
if(parent != NULL) {
ASTNode_replaceChild(parent, child_order, times_node);
} else {
*node_p = times_node;
}
}
return;
}
END_TEST
START_TEST (test_KineticLaw_setMath2)
{
ASTNode_t *math = ASTNode_createWithType(AST_TIMES);
ASTNode_t *a = ASTNode_create();
ASTNode_setName(a, "a");
ASTNode_addChild(math, a);
int i = KineticLaw_setMath(kl, math);
fail_unless( i == LIBSBML_INVALID_OBJECT);
fail_unless( !KineticLaw_isSetMath(kl) );
ASTNode_free(math);
}
END_TEST
START_TEST (test_Rule_setMath2)
{
ASTNode_t *math = ASTNode_createWithType(AST_DIVIDE);
ASTNode_t *a = ASTNode_create();
ASTNode_setName(a, "a");
ASTNode_addChild(math, a);
int i = Rule_setMath(R, math);
fail_unless( i == LIBSBML_INVALID_OBJECT);
fail_unless( !Rule_isSetMath(R) );
ASTNode_free(math);
}
END_TEST
START_TEST (test_SpeciesReference_setStoichiometryMath2)
{
StoichiometryMath_t * sm = StoichiometryMath_create(2, 4);
ASTNode_t *math = ASTNode_createWithType(AST_TIMES);
ASTNode_t *a = ASTNode_create();
ASTNode_setName(a, "a");
ASTNode_addChild(math, a);
StoichiometryMath_setMath(sm, math);
int i = SpeciesReference_setStoichiometryMath(sr, sm);
/* once the StoichiometryMath_setMath function does not set
* an invalid ASTNode this changes to i == LIBSBML_OPERATION_SUCCESS
fail_unless( i == LIBSBML_INVALID_OBJECT);
*/
fail_unless ( i == LIBSBML_OPERATION_SUCCESS );
fail_unless( SpeciesReference_isSetStoichiometryMath(sr) );
StoichiometryMath_free(sm);
}
void ev_alter_tree_structure(Model_t *m, ASTNode_t **node_p, ASTNode_t *parent, int child_order, copied_AST *cp_AST){
ASTNode_t *zero_node;
ASTNode_t *node, *next_node;
ASTNode_t *pc_eq, *pc_cd, *times_node, *and_node, *not_node;
unsigned int i, j;
int p;
ASTNode_t *arg_node_list[MAX_ARG_NUM];
unsigned int arg_node_num;
FunctionDefinition_t *fd;
ASTNode_t *fd_arg;
ASTNode_t *fd_body;
node = *node_p;
for(i=0; i<ASTNode_getNumChildren(node); i++){
next_node = ASTNode_getChild(node, i);
if(ASTNode_getNumChildren(node) == 1 && ASTNode_getType(node) == AST_MINUS){
zero_node = ASTNode_create();
ASTNode_setType(zero_node, AST_REAL);
ASTNode_setReal(zero_node, 0);
ASTNode_replaceChild(node, 0, zero_node);
ASTNode_addChild(*node_p, next_node);
}else{
ev_alter_tree_structure(m, &next_node, *node_p, i, cp_AST);
}
}
if(ASTNode_getType(node) == AST_FUNCTION){
arg_node_num = ASTNode_getNumChildren(node);
for(i=0; i<arg_node_num; i++){
arg_node_list[i] = ASTNode_getChild(node, i);
}
for(i=0; i<Model_getNumFunctionDefinitions(m); i++){
fd = (FunctionDefinition_t*)ListOf_get(Model_getListOfFunctionDefinitions(m), i);
fd_body = (ASTNode_t*)FunctionDefinition_getBody(fd);
if(strcmp(FunctionDefinition_getId(fd), ASTNode_getName(node)) == 0){
fd_body = ASTNode_deepCopy(fd_body);
cp_AST->ast[cp_AST->num_of_copied_AST++] = fd_body;
for(j=0; j<FunctionDefinition_getNumArguments(fd); j++){
fd_arg = (ASTNode_t*)FunctionDefinition_getArgument(fd, j);
ASTNode_replaceArgument(fd_body, (char*)ASTNode_getName(fd_arg), arg_node_list[j]);
}
/* check_AST(fd_body, NULL); */
if(parent != NULL){
ASTNode_replaceChild(parent, child_order, fd_body);
}else{
*node_p = fd_body;
}
node = *node_p;
break;
}
}
}
if(ASTNode_getType(node) == AST_FUNCTION_PIECEWISE){
ASTNode_setType(node, AST_PLUS);
ASTNode_setName(node, NULL);
times_node = ASTNode_createWithType(AST_TIMES);
pc_eq = ASTNode_getRightChild(node);
ASTNode_addChild(times_node, pc_eq);
if(ASTNode_getNumChildren(node) > 3){
and_node = ASTNode_createWithType(AST_LOGICAL_AND);
ASTNode_addChild(times_node, and_node);
for(p=(int)ASTNode_getNumChildren(node)-2; p >= 1; p = p-2){
pc_cd = ASTNode_getChild(node, p);
not_node = ASTNode_createWithType(AST_LOGICAL_NOT);
ASTNode_addChild(not_node, pc_cd);
ASTNode_addChild(and_node, not_node);
}
ASTNode_reduceToBinary(and_node);
}else{
pc_cd = ASTNode_getChild(node, 1);
not_node = ASTNode_createWithType(AST_LOGICAL_NOT);
ASTNode_addChild(not_node, pc_cd);
ASTNode_addChild(times_node, not_node);
}
ASTNode_replaceChild(node, ASTNode_getNumChildren(node)-1, times_node);
for(p=ASTNode_getNumChildren(node)-2; p >= 1; p = p-2){
times_node = ASTNode_createWithType(AST_TIMES);
pc_eq = ASTNode_getChild(node, p-1);
pc_cd = ASTNode_getChild(node, p);
ASTNode_addChild(times_node, pc_eq);
ASTNode_addChild(times_node, ASTNode_deepCopy(pc_cd));
ASTNode_removeChild(node, p);
ASTNode_replaceChild(node ,p-1, times_node);
}
ASTNode_reduceToBinary(node);
}
return;
}
void _prepare_reversible_fast_reaction(Model_t *m, myASTNode *myNode, myReaction *re, mySpecies *sp[], myParameter *param[], myCompartment *comp[], myReaction *re_whole[], double sim_time, double dt, double *time, myInitialAssignment *initAssign[], char *time_variant_target_id[], unsigned int num_of_time_variant_targets, timeVariantAssignments *timeVarAssign, char *target_id, int p_or_r, allocated_memory *mem){
ASTNode_t *minus_node, *zero_node, *final_eq_node;
myASTNode *eq_root_node;
int minus_sign;
if(myNode->left != NULL){
_prepare_reversible_fast_reaction(m, myNode->left, re, sp, param, comp, re_whole, sim_time, dt, time, initAssign, time_variant_target_id, num_of_time_variant_targets, timeVarAssign, target_id, p_or_r, mem);
}
if(myNode->right != NULL){
_prepare_reversible_fast_reaction(m, myNode->right, re, sp, param, comp, re_whole, sim_time, dt, time, initAssign, time_variant_target_id, num_of_time_variant_targets, timeVarAssign, target_id, p_or_r, mem);
}
if(ASTNode_getType(myNode->origin) == AST_NAME){
if(strcmp(ASTNode_getName(myNode->origin), target_id) == 0){
ASTNode_setType(myNode->origin, AST_INTEGER);
ASTNode_setInteger(myNode->origin, 1);
eq_root_node = myNode;
minus_sign = 1;
while(eq_root_node->parent != NULL){
if(ASTNode_getType(eq_root_node->parent->origin) != AST_TIMES
&& ASTNode_getType(eq_root_node->parent->origin) != AST_DIVIDE){
if(ASTNode_getType(eq_root_node->parent->origin) == AST_MINUS
&& eq_root_node->parent->right == eq_root_node){
minus_sign *= -1;
}
if(eq_root_node->parent->parent != NULL){
if(eq_root_node->parent->parent->left == eq_root_node->parent){
eq_root_node->parent->parent->left = eq_root_node;
}else{
eq_root_node->parent->parent->right = eq_root_node;
}
eq_root_node->parent = eq_root_node->parent->parent;
}else{
eq_root_node->parent = NULL;
break;
}
}else{
eq_root_node = eq_root_node->parent;
}
}
final_eq_node = eq_root_node->origin;
TRACE(("myASTNode is\n"));
check_myAST(eq_root_node);
ASTNode_recreate(eq_root_node, final_eq_node);
if(minus_sign == -1){
minus_node = ASTNode_createWithType(AST_MINUS);
zero_node = ASTNode_createWithType(AST_INTEGER);
ASTNode_setInteger(zero_node, 0);
ASTNode_addChild(minus_node, zero_node);
ASTNode_addChild(minus_node, final_eq_node);
final_eq_node = minus_node;
}
if(p_or_r == 0){/* products coefficient */
TRACE(("AST of product numerator is\n"));
check_AST(final_eq_node, NULL);
re->products_equili_numerator->math_length = get_equation(m, re->products_equili_numerator, sp, param, comp, re_whole, final_eq_node, 0, sim_time, dt, time, initAssign, time_variant_target_id, num_of_time_variant_targets, timeVarAssign, mem);
}else{/* reactants coefficient */
minus_node = ASTNode_createWithType(AST_MINUS);
zero_node = ASTNode_createWithType(AST_INTEGER);
ASTNode_setInteger(zero_node, 0);
ASTNode_addChild(minus_node, zero_node);
ASTNode_addChild(minus_node, final_eq_node);
final_eq_node = minus_node;
TRACE(("AST of reactant numerator is\n"));
check_AST(final_eq_node, NULL);
re->reactants_equili_numerator->math_length = get_equation(m, re->reactants_equili_numerator, sp, param, comp, re_whole, final_eq_node, 0, sim_time, dt, time, initAssign, time_variant_target_id, num_of_time_variant_targets, timeVarAssign, mem);
}
}
}
}
/**
* Reduces the given stack (containing SLR parser states and ASTNodes) by
* the given grammar rule.
*/
ASTNode_t *
FormulaParser_reduceStackByRule (Stack_t *stack, long rule)
{
ASTNode_t *result = NULL;
ASTNode_t *lexpr, *rexpr, *operator;
/**
* Rule 1: Stmt -> Expr
* Rule 9: Expr -> NUMBER
* Rule 10: Expr -> NAME
* Rule 13: OptArgs -> Args
*/
if (rule == 1 || rule == 9 || rule == 10 || rule == 13)
{
Stack_pop(stack);
result = Stack_pop(stack);
if (rule == 10)
{
/**
* Convert result to a recognized L2 function constant (if
* applicable).
*/
ASTNode_canonicalize(result);
}
}
/**
* Rule 2: Expr -> Expr PLUS Expr
* Rule 3: Expr -> Expr MINUS Expr
* Rule 4: Expr -> Expr TIMES Expr
* Rule 5: Expr -> Expr DIVIDE Expr
* Rule 6: Expr -> Expr POWER Expr
*/
else if (rule >= 2 && rule <= 6)
{
Stack_pop(stack);
rexpr = Stack_pop(stack);
Stack_pop(stack);
operator = Stack_pop(stack);
Stack_pop(stack);
lexpr = Stack_pop(stack);
ASTNode_addChild(operator, lexpr);
ASTNode_addChild(operator, rexpr);
result = operator;
}
/**
* Rule 7: Expr -> MINUS Expr
*/
else if (rule == 7)
{
Stack_pop(stack);
lexpr = Stack_pop(stack);
Stack_pop(stack);
operator = Stack_pop(stack);
/**
* Perform a simple tree reduction, if possible.
*
* If Expr is an AST_INTEGER or AST_REAL (or AST_REAL_E), simply negate
* the numeric value. Otheriwse, a (unary) AST_MINUS node should be
* returned.
*/
if (ASTNode_getType(lexpr) == AST_INTEGER)
{
ASTNode_setInteger(lexpr, - ASTNode_getInteger(lexpr));
ASTNode_free(operator);
result = lexpr;
}
else if ( ASTNode_getType(lexpr) == AST_REAL)
{
ASTNode_setReal(lexpr, - ASTNode_getReal(lexpr));
ASTNode_free(operator);
result = lexpr;
}
else if (ASTNode_getType(lexpr) == AST_REAL_E)
{
ASTNode_setRealWithExponent( lexpr,
- ASTNode_getMantissa(lexpr),
ASTNode_getExponent(lexpr) );
ASTNode_free(operator);
result = lexpr;
}
else
{
ASTNode_addChild(operator, lexpr);
result = operator;
}
}
/**
* Rule 8: Expr -> LPAREN Expr RPAREN
*/
else if (rule == 8)
{
Stack_pop(stack);
ASTNode_free( Stack_pop(stack) );
Stack_pop(stack);
result = Stack_pop(stack);
Stack_pop(stack);
ASTNode_free( Stack_pop(stack) );
}
/**
* Rule 11: Expr -> NAME LPAREN OptArgs RPAREN
*/
else if (rule == 11)
{
Stack_pop(stack);
ASTNode_free( Stack_pop(stack) );
Stack_pop(stack);
lexpr = Stack_pop(stack);
Stack_pop(stack);
ASTNode_free( Stack_pop(stack) );
Stack_pop(stack);
result = Stack_pop(stack);
ASTNode_setType(result, AST_FUNCTION);
if (lexpr != NULL)
{
/**
* Swap child pointers. In effect the NAME / AST_FUNCTION
* represented by result (which has no children) will "adopt" the
* children of OptArgs which are the arguments to the AST_FUNCTION.
*
* After this, OptArgs (lexpr) is no longer needed.
*/
ASTNode_swapChildren(lexpr, result);
ASTNode_free(lexpr);
}
/**
* Convert result to a recognized L2 function constant (if applicable).
*/
ASTNode_canonicalize(result);
}
/**
* Rule 12: OptArgs -> [empty]
*/
else if (rule == 12)
{
result = NULL;
}
/**
* Rule 14: Args -> Expr
*/
else if (rule == 14)
{
Stack_pop(stack);
lexpr = Stack_pop(stack);
result = ASTNode_create();
ASTNode_addChild(result, lexpr);
}
/**
* Rule 15: Args -> Args COMMA Expr
*/
else if (rule == 15)
{
Stack_pop(stack);
lexpr = Stack_pop(stack);
Stack_pop(stack);
ASTNode_free( Stack_pop(stack) );
Stack_pop(stack);
result = Stack_pop(stack);
ASTNode_addChild(result, lexpr);
}
return result;
}