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/* gtkconstraintexpression.c: Constraint expressions and variables
* Copyright 2019 GNOME Foundation
*
* SPDX-License-Identifier: LGPL-2.1-or-later
*
* This library is free software; you can redistribute it and/or
* modify it under the terms of the GNU Lesser General Public
* License as published by the Free Software Foundation; either
* version 2.1 of the License, or (at your option) any later version.
*
* This library is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
* Lesser General Public License for more details.
*
* You should have received a copy of the GNU Lesser General Public
* License along with this library. If not, see <http://www.gnu.org/licenses/>.
*
* Author: Emmanuele Bassi
*/
#include "config.h"
#include "gtkconstraintexpressionprivate.h"
#include "gtkconstraintsolverprivate.h"
/* {{{ Variables */
typedef enum {
GTK_CONSTRAINT_SYMBOL_DUMMY = 'd',
GTK_CONSTRAINT_SYMBOL_OBJECTIVE = 'o',
GTK_CONSTRAINT_SYMBOL_SLACK = 'S',
GTK_CONSTRAINT_SYMBOL_REGULAR = 'v'
} GtkConstraintSymbolType;
struct _GtkConstraintVariable
{
guint64 _id;
GtkConstraintSymbolType _type;
/* Interned strings */
const char *name;
const char *prefix;
double value;
guint is_external : 1;
guint is_pivotable : 1;
guint is_restricted : 1;
};
/* Variables are sorted by a monotonic id */
static guint64 gtk_constraint_variable_next_id;
static void
gtk_constraint_variable_init (GtkConstraintVariable *variable,
const char *prefix,
const char *name)
{
variable->_id = gtk_constraint_variable_next_id++;
variable->prefix = g_intern_string (prefix);
variable->name = g_intern_string (name);
variable->prefix = NULL;
variable->value = 0.0;
}
/*< private >
* gtk_constraint_variable_new_dummy:
* @name: the name of the variable
*
* Allocates and initializes a new #GtkConstraintVariable for a "dummy"
* symbol. Dummy symbols are typically used as markers inside a solver,
* and will not be factored in the solution when pivoting the tableau
* of the constraint equations.
*
* Only #GtkConstraintSolver should use this function.
*
* Returns: a newly allocated #GtkConstraintVariable
*/
GtkConstraintVariable *
gtk_constraint_variable_new_dummy (const char *name)
{
GtkConstraintVariable *res = g_rc_box_new (GtkConstraintVariable);
gtk_constraint_variable_init (res, NULL, name);
res->_type = GTK_CONSTRAINT_SYMBOL_DUMMY;
res->is_external = FALSE;
res->is_pivotable = FALSE;
res->is_restricted = TRUE;
return res;
}
/*< private >
* gtk_constraint_variable_new_objective:
* @name: the name of the variable
*
* Allocates and initializes a new #GtkConstraintVariable for an objective
* symbol. This is the constant value we wish to find as the result of the
* simplex optimization.
*
* Only #GtkConstraintSolver should use this function.
*
* Returns: a newly allocated #GtkConstraintVariable
*/
GtkConstraintVariable *
gtk_constraint_variable_new_objective (const char *name)
{
GtkConstraintVariable *res = g_rc_box_new (GtkConstraintVariable);
gtk_constraint_variable_init (res, NULL, name);
res->_type = GTK_CONSTRAINT_SYMBOL_OBJECTIVE;
res->is_external = FALSE;
res->is_pivotable = FALSE;
res->is_restricted = FALSE;
return res;
}
/*< private >
* gtk_constraint_variable_new_slack:
* @name: the name of the variable
*
* Allocates and initializes a new #GtkConstraintVariable for a "slack"
* symbol. Slack variables are introduced inside the tableau to turn
* inequalities, like:
*
* |[
* expr ≥ 0
* ]|
*
* Into equalities, like:
*
* |[
* expr - slack = 0
* ]|
*
* Only #GtkConstraintSolver should use this function.
*
* Returns: a newly allocated #GtkConstraintVariable
*/
GtkConstraintVariable *
gtk_constraint_variable_new_slack (const char *name)
{
GtkConstraintVariable *res = g_rc_box_new (GtkConstraintVariable);
gtk_constraint_variable_init (res, NULL, name);
res->_type = GTK_CONSTRAINT_SYMBOL_SLACK;
res->is_external = FALSE;
res->is_pivotable = TRUE;
res->is_restricted = TRUE;
return res;
}
/*< private >
* gtk_constraint_variable_new:
* @prefix: (nullable): an optional prefix string for @name
* @name: (nullable): an optional name for the variable
*
* Allocates and initializes a new #GtkConstraintVariable for a regular
* symbol. All variables introduced by constraints are regular variables.
*
* Only #GtkConstraintSolver should use this function; a constraint layout
* manager should ask the #GtkConstraintSolver to create a variable, using
* gtk_constraint_solver_create_variable(), which will insert the variable
* in the solver's tableau.
*
* Returns: a newly allocated #GtkConstraintVariable
*/
GtkConstraintVariable *
gtk_constraint_variable_new (const char *prefix,
const char *name)
{
GtkConstraintVariable *res = g_rc_box_new (GtkConstraintVariable);
gtk_constraint_variable_init (res, prefix, name);
res->_type = GTK_CONSTRAINT_SYMBOL_REGULAR;
res->is_external = TRUE;
res->is_pivotable = FALSE;
res->is_restricted = FALSE;
return res;
}
/*< private >
* gtk_constraint_variable_ref:
* @variable: a #GtkConstraintVariable
*
* Acquires a reference to @variable.
*
* Returns: (transfer full): the given #GtkConstraintVariable, with its reference
* count increased
*/
GtkConstraintVariable *
gtk_constraint_variable_ref (GtkConstraintVariable *variable)
{
g_return_val_if_fail (variable != NULL, NULL);
return g_rc_box_acquire (variable);
}
/*< private >
* gtk_constraint_variable_unref:
* @variable: (transfer full): a #GtkConstraintVariable
*
* Releases a reference to @variable.
*/
void
gtk_constraint_variable_unref (GtkConstraintVariable *variable)
{
g_return_if_fail (variable != NULL);
g_rc_box_release (variable);
}
/*< private >
* gtk_constraint_variable_set_value:
* @variable: a #GtkConstraintVariable
*
* Sets the current value of a #GtkConstraintVariable.
*/
void
gtk_constraint_variable_set_value (GtkConstraintVariable *variable,
double value)
{
variable->value = value;
}
/*< private >
* gtk_constraint_variable_get_value:
* @variable: a #GtkConstraintVariable
*
* Retrieves the current value of a #GtkConstraintVariable
*
* Returns: the value of the variable
*/
double
gtk_constraint_variable_get_value (const GtkConstraintVariable *variable)
{
return variable->value;
}
/*< private >
* gtk_constraint_variable_to_string:
* @variable: a #GtkConstraintVariable
*
* Turns @variable into a string, for debugging purposes.
*
* Returns: (transfer full): a string with the contents of @variable
*/
char *
gtk_constraint_variable_to_string (const GtkConstraintVariable *variable)
{
GString *buf = g_string_new (NULL);
if (variable == NULL)
g_string_append (buf, "<null>");
else
{
switch (variable->_type)
{
case GTK_CONSTRAINT_SYMBOL_DUMMY:
g_string_append (buf, "(d)");
break;
case GTK_CONSTRAINT_SYMBOL_OBJECTIVE:
g_string_append (buf, "(O)");
break;
case GTK_CONSTRAINT_SYMBOL_SLACK:
g_string_append (buf, "(S)");
break;
case GTK_CONSTRAINT_SYMBOL_REGULAR:
break;
default:
g_assert_not_reached ();
}
g_string_append_c (buf, '[');
if (variable->prefix != NULL)
{
g_string_append (buf, variable->prefix);
g_string_append_c (buf, '.');
}
if (variable->name != NULL)
g_string_append (buf, variable->name);
if (variable->_type == GTK_CONSTRAINT_SYMBOL_REGULAR)
{
char dbl_buf[G_ASCII_DTOSTR_BUF_SIZE];
g_ascii_dtostr (dbl_buf, G_ASCII_DTOSTR_BUF_SIZE, variable->value);
g_string_append_c (buf, ':');
g_string_append (buf, dbl_buf);
}
g_string_append_c (buf, ']');
}
return g_string_free (buf, FALSE);
}
/*< private >
* gtk_constraint_variable_is_external:
* @variable: a #GtkConstraintVariable
*
* Checks whether the @variable was introduced from outside the solver.
*
* Returns: %TRUE if the variable is external
*/
gboolean
gtk_constraint_variable_is_external (const GtkConstraintVariable *variable)
{
return variable->is_external;
}
/*< private >
* gtk_constraint_variable_is_pivotable:
* @variable: a #GtkConstraintVariable
*
* Checks whether the @variable can be used as a pivot.
*
* Returns: %TRUE if the variable is pivotable
*/
gboolean
gtk_constraint_variable_is_pivotable (const GtkConstraintVariable *variable)
{
return variable->is_pivotable;
}
/*< private >
* gtk_constraint_variable_is_restricted:
* @variable: a #GtkConstraintVariable
*
* Checks whether the @variable's use is restricted.
*
* Returns: %TRUE if the variable is restricted
*/
gboolean
gtk_constraint_variable_is_restricted (const GtkConstraintVariable *variable)
{
return variable->is_restricted;
}
/*< private >
* gtk_constraint_variable_is_dummy:
* @variable: a #GtkConstraintVariable
*
* Checks whether the @variable is a dummy symbol.
*
* Returns: %TRUE if the variable is a dummy symbol
*/
gboolean
gtk_constraint_variable_is_dummy (const GtkConstraintVariable *variable)
{
return variable->_type == GTK_CONSTRAINT_SYMBOL_DUMMY;
}
/*< private >
* GtkConstraintVariableSet:
*
* A set of variables.
*/
struct _GtkConstraintVariableSet {
/* List<Variable>, owns a reference */
GSequence *set;
/* Age of the set, to guard against mutations while iterating */
gint64 age;
};
/*< private >
* gtk_constraint_variable_set_free:
* @set: a #GtkConstraintVariableSet
*
* Frees the resources associated to a #GtkConstraintVariableSet/
*/
void
gtk_constraint_variable_set_free (GtkConstraintVariableSet *set)
{
g_return_if_fail (set != NULL);
g_sequence_free (set->set);
g_free (set);
}
/*< private >
* gtk_constraint_variable_set_new:
*
* Creates a new #GtkConstraintVariableSet.
*
* Returns: the newly created variable set
*/
GtkConstraintVariableSet *
gtk_constraint_variable_set_new (void)
{
GtkConstraintVariableSet *res = g_new (GtkConstraintVariableSet, 1);
res->set = g_sequence_new ((GDestroyNotify) gtk_constraint_variable_unref);
res->age = 0;
return res;
}
static int
sort_by_variable_id (gconstpointer a,
gconstpointer b,
gpointer data)
{
const GtkConstraintVariable *va = a, *vb = b;
if (va == vb)
return 0;
return va->_id - vb->_id;
}
/*< private >
* gtk_constraint_variable_set_add:
* @set: a #GtkConstraintVariableSet
* @variable: a #GtkConstraintVariable
*
* Adds @variable to the given @set, if the @variable is not already
* in it.
*
* The @set will acquire a reference on the @variable, and will release
* it after calling gtk_constraint_variable_set_remove(), or when the @set
* is freed.
*
* Returns: %TRUE if the variable was added to the set, and %FALSE otherwise
*/
gboolean
gtk_constraint_variable_set_add (GtkConstraintVariableSet *set,
GtkConstraintVariable *variable)
{
GSequenceIter *iter;
iter = g_sequence_search (set->set, variable, sort_by_variable_id, NULL);
if (!g_sequence_iter_is_end (iter))
{
GtkConstraintVariable *v = g_sequence_get (iter);
if (v->_id == variable->_id)
return FALSE;
}
g_sequence_insert_before (iter, gtk_constraint_variable_ref (variable));
set->age += 1;
return TRUE;
}
/*< private >
* gtk_constraint_variable_set_remove:
* @set: a #GtkConstraintVariableSet
* @variable: a #GtkConstraintVariable
*
* Removes @variable from the @set.
*
* This function will release the reference on @variable held by the @set.
*
* Returns: %TRUE if the variable was removed from the set, and %FALSE
* otherwise
*/
gboolean
gtk_constraint_variable_set_remove (GtkConstraintVariableSet *set,
GtkConstraintVariable *variable)
{
GSequenceIter *iter;
iter = g_sequence_lookup (set->set, variable, sort_by_variable_id, NULL);
if (iter != NULL)
{
g_sequence_remove (iter);
set->age += 1;
return TRUE;
}
return FALSE;
}
/*< private >
* gtk_constraint_variable_set_size:
* @set: a #GtkConstraintVariableSet
*
* Retrieves the size of the @set.
*
* Returns: the number of variables in the set
*/
int
gtk_constraint_variable_set_size (GtkConstraintVariableSet *set)
{
return g_sequence_get_length (set->set);
}
gboolean
gtk_constraint_variable_set_is_empty (GtkConstraintVariableSet *set)
{
return g_sequence_is_empty (set->set);
}
gboolean
gtk_constraint_variable_set_is_singleton (GtkConstraintVariableSet *set)
{
return g_sequence_iter_next (g_sequence_get_begin_iter (set->set)) == g_sequence_get_end_iter (set->set);
}
/*< private >
* GtkConstraintVariableSetIter:
*
* An iterator type for #GtkConstraintVariableSet.
*/
/* Keep in sync with GtkConstraintVariableSetIter */
typedef struct {
GtkConstraintVariableSet *set;
GSequenceIter *iter;
gint64 age;
} RealVariableSetIter;
#define REAL_VARIABLE_SET_ITER(i) ((RealVariableSetIter *) (i))
/*< private >
* gtk_constraint_variable_set_iter_init:
* @iter: a #GtkConstraintVariableSetIter
* @set: the #GtkConstraintVariableSet to iterate
*
* Initializes @iter for iterating over @set.
*/
void
gtk_constraint_variable_set_iter_init (GtkConstraintVariableSetIter *iter,
GtkConstraintVariableSet *set)
{
RealVariableSetIter *riter = REAL_VARIABLE_SET_ITER (iter);
g_return_if_fail (iter != NULL);
g_return_if_fail (set != NULL);
riter->set = set;
riter->iter = g_sequence_get_begin_iter (set->set);
riter->age = set->age;
}
/*< private >
* gtk_constraint_variable_set_iter_next:
* @iter: a #GtkConstraintVariableSetIter
* @variable_p: (out): the next variable in the set
*
* Advances the @iter to the next variable in the #GtkConstraintVariableSet.
*
* Returns: %TRUE if the iterator was advanced, and %FALSE otherwise
*/
gboolean
gtk_constraint_variable_set_iter_next (GtkConstraintVariableSetIter *iter,
GtkConstraintVariable **variable_p)
{
RealVariableSetIter *riter = REAL_VARIABLE_SET_ITER (iter);
g_return_val_if_fail (iter != NULL, FALSE);
g_return_val_if_fail (variable_p != NULL, FALSE);
g_assert (riter->age == riter->set->age);
if (g_sequence_iter_is_end (riter->iter))
return FALSE;
*variable_p = g_sequence_get (riter->iter);
riter->iter = g_sequence_iter_next (riter->iter);
return TRUE;
}
/*< private >
* gtk_constraint_variable_pair_new:
* @first: a #GtkConstraintVariable
* @second: a #GtkConstraintVariable
*
* Creates a new #GtkConstraintVariablePair, containing @first and @second.
*
* The #GtkConstraintVariablePair acquires a reference over the two
* given #GtkConstraintVariables.
*
* Returns: a new #GtkConstraintVariablePair
*/
GtkConstraintVariablePair *
gtk_constraint_variable_pair_new (GtkConstraintVariable *first,
GtkConstraintVariable *second)
{
GtkConstraintVariablePair *res = g_new (GtkConstraintVariablePair, 1);
res->first = gtk_constraint_variable_ref (first);
res->second = gtk_constraint_variable_ref (second);
return res;
}
/*< private >
* gtk_constraint_variable_pair_free:
* @pair: a #GtkConstraintVariablePair
*
* Frees the resources associated by @pair.
*/
void
gtk_constraint_variable_pair_free (GtkConstraintVariablePair *pair)
{
g_clear_pointer (&pair->first, gtk_constraint_variable_unref);
g_clear_pointer (&pair->second, gtk_constraint_variable_unref);
g_free (pair);
}
/* }}} */
/* {{{ Expressions */
/*< private >
* Term:
* @variable: a #GtkConstraintVariable
* @coefficient: the coefficient applied to the @variable
* @next: the next term in the expression
* @prev: the previous term in the expression;
*
* A tuple of (@variable, @coefficient) in an equation.
*
* The term acquires a reference on the variable.
*/
typedef struct _Term Term;
struct _Term {
GtkConstraintVariable *variable;
double coefficient;
Term *next;
Term *prev;
};
static Term *
term_new (GtkConstraintVariable *variable,
double coefficient)
{
Term *res = g_new (Term, 1);
res->variable = gtk_constraint_variable_ref (variable);
res->coefficient = coefficient;
res->next = res->prev = NULL;
return res;
}
static void
term_free (gpointer data)
{
Term *term = data;
if (term == NULL)
return;
gtk_constraint_variable_unref (term->variable);
g_free (term);
}
struct _GtkConstraintExpression
{
double constant;
/* HashTable<Variable, Term>; the key is the term's variable,
* and the value is owned by the hash table
*/
GHashTable *terms;
/* List of terms, in insertion order */
Term *first_term;
Term *last_term;
/* Used by GtkConstraintExpressionIter to guard against changes
* in the expression while iterating
*/
gint64 age;
};
/*< private >
* gtk_constraint_expression_add_term:
* @self: a #GtkConstraintExpression
* @variable: a #GtkConstraintVariable
* @coefficient: a coefficient for @variable
*
* Adds a new term formed by (@variable, @coefficient) into a
* #GtkConstraintExpression.
*
* The @expression acquires a reference on @variable.
*/
static void
gtk_constraint_expression_add_term (GtkConstraintExpression *self,
GtkConstraintVariable *variable,
double coefficient)
{
Term *term;
if (self->terms == NULL)
{
g_assert (self->first_term == NULL && self->last_term == NULL);
self->terms = g_hash_table_new_full (NULL, NULL,
NULL,
term_free);
}
term = term_new (variable, coefficient);
g_hash_table_insert (self->terms, term->variable, term);
if (self->first_term == NULL)
self->first_term = term;
term->prev = self->last_term;
if (self->last_term != NULL)
self->last_term->next = term;
self->last_term = term;
/* Increase the age of the expression, so that we can catch
* mutations from within an iteration over the terms
*/
self->age += 1;
}
static void
gtk_constraint_expression_remove_term (GtkConstraintExpression *self,
GtkConstraintVariable *variable)
{
Term *term, *iter;
if (self->terms == NULL)
return;
term = g_hash_table_lookup (self->terms, variable);
if (term == NULL)
return;
/* Keep the variable alive for the duration of the function */
gtk_constraint_variable_ref (variable);
iter = self->first_term;
while (iter != NULL)
{
Term *next = iter->next;
Term *prev = iter->prev;
if (iter == term)
{
if (prev != NULL)
prev->next = next;
if (next != NULL)
next->prev = prev;
if (iter == self->first_term)
self->first_term = next;
if (iter == self->last_term)
self->last_term = prev;
iter->next = NULL;
iter->prev = NULL;
break;
}
iter = next;
}
g_hash_table_remove (self->terms, variable);
gtk_constraint_variable_unref (variable);
self->age += 1;
}
/*< private >
* gtk_constraint_expression_new:
* @constant: a constant for the expression
*
* Creates a new #GtkConstraintExpression with the given @constant.
*
* Returns: (transfer full): the newly created expression
*/
GtkConstraintExpression *
gtk_constraint_expression_new (double constant)
{
GtkConstraintExpression *res = g_rc_box_new (GtkConstraintExpression);
res->age = 0;
res->terms = NULL;
res->first_term = NULL;
res->last_term = NULL;
res->constant = constant;
return res;
}
/*< private >
* gtk_constraint_expression_new_from_variable:
* @variable: a #GtkConstraintVariable
*
* Creates a new #GtkConstraintExpression with the given @variable.
*
* Returns: (transfer full): the newly created expression
*/
GtkConstraintExpression *
gtk_constraint_expression_new_from_variable (GtkConstraintVariable *variable)
{
GtkConstraintExpression *res = gtk_constraint_expression_new (0.0);
gtk_constraint_expression_add_term (res, variable, 1.0);
return res;
}
/*< private >
* gtk_constraint_expression_ref:
* @expression: a #GtkConstraintExpression
*
* Acquires a reference on @expression.
*
* Returns: (transfer full): the @expression, with its reference
* count increased
*/
GtkConstraintExpression *
gtk_constraint_expression_ref (GtkConstraintExpression *expression)
{
g_return_val_if_fail (expression != NULL, NULL);
return g_rc_box_acquire (expression);
}
static void
gtk_constraint_expression_clear (gpointer data)
{
GtkConstraintExpression *self = data;
g_clear_pointer (&self->terms, g_hash_table_unref);
self->age = 0;
self->constant = 0.0;
self->first_term = NULL;
self->last_term = NULL;
}
/*< private >
* gtk_constraint_expression_unref:
* @expression: (transfer full): a #GtkConstraintExpression
*
* Releases a reference on @expression.
*/
void
gtk_constraint_expression_unref (GtkConstraintExpression *expression)
{
g_rc_box_release_full (expression, gtk_constraint_expression_clear);
}
/*< private >
* gtk_constraint_expression_is_constant:
* @expression: a #GtkConstraintExpression
*
* Checks whether @expression is a constant value, with no variable terms.
*
* Returns: %TRUE if the @expression is a constant
*/
gboolean
gtk_constraint_expression_is_constant (const GtkConstraintExpression *expression)
{
return expression->terms == NULL;
}
/*< private >
* gtk_constraint_expression_set_constant:
* @expression: a #GtkConstraintExpression
* @constant: the value of the constant
*
* Sets the value of the constant part of @expression.
*/
void
gtk_constraint_expression_set_constant (GtkConstraintExpression *expression,
double constant)
{
g_return_if_fail (expression != NULL);
expression->constant = constant;
}
/*< private >
* gtk_constraint_expression_get_constant:
* @expression: a #GtkConstraintExpression
*
* Retrieves the constant value of @expression.
*
* Returns: the constant of @expression
*/
double
gtk_constraint_expression_get_constant (const GtkConstraintExpression *expression)
{
g_return_val_if_fail (expression != NULL, 0.0);
return expression->constant;
}
GtkConstraintExpression *
gtk_constraint_expression_clone (GtkConstraintExpression *expression)
{
GtkConstraintExpression *res;
Term *iter;
res = gtk_constraint_expression_new (expression->constant);
iter = expression->first_term;
while (iter != NULL)
{
gtk_constraint_expression_add_term (res, iter->variable, iter->coefficient);
iter = iter->next;
}
return res;
}
/*< private >
* gtk_constraint_expression_add_variable:
* @expression: a #GtkConstraintExpression
* @variable: a #GtkConstraintVariable to add to @expression
* @coefficient: the coefficient of @variable
* @subject: (nullable): a #GtkConstraintVariable
* @solver: (nullable): a #GtkConstraintSolver
*
* Adds a `(@coefficient × @variable)` term to @expression.
*
* If @expression already contains a term for @variable, this function will
* update its coefficient.
*
* If @coefficient is 0 and @expression already contains a term for @variable,
* the term for @variable will be removed.
*
* This function will notify @solver if @variable is added or removed from
* the @expression.
*/
void
gtk_constraint_expression_add_variable (GtkConstraintExpression *expression,
GtkConstraintVariable *variable,
double coefficient,
GtkConstraintVariable *subject,
GtkConstraintSolver *solver)
{
/* If the expression already contains the variable, update the coefficient */
if (expression->terms != NULL)
{
Term *t = g_hash_table_lookup (expression->terms, variable);
if (t != NULL)
{
double new_coefficient = t->coefficient + coefficient;
/* Setting the coefficient to 0 will remove the variable */
if (G_APPROX_VALUE (new_coefficient, 0.0, 0.001))
{
/* Update the tableau if needed */
if (solver != NULL)
gtk_constraint_solver_note_removed_variable (solver, variable, subject);
gtk_constraint_expression_remove_term (expression, variable);
}
else
{
t->coefficient = new_coefficient;
}
return;
}
}
/* Otherwise, add the variable if the coefficient is non-zero */
if (!G_APPROX_VALUE (coefficient, 0.0, 0.001))
{
gtk_constraint_expression_add_term (expression, variable, coefficient);
if (solver != NULL)
gtk_constraint_solver_note_added_variable (solver, variable, subject);
}
}
/*< private >
* gtk_constraint_expression_remove_variable:
* @expression: a #GtkConstraintExpression
* @variable: a #GtkConstraintVariable
*
* Removes @variable from @expression.
*/
void
gtk_constraint_expression_remove_variable (GtkConstraintExpression *expression,
GtkConstraintVariable *variable)
{
g_return_if_fail (expression != NULL);
g_return_if_fail (variable != NULL);
gtk_constraint_expression_remove_term (expression, variable);
}
/*< private >
* gtk_constraint_expression_set_variable:
* @expression: a #GtkConstraintExpression
* @variable: a #GtkConstraintVariable
* @coefficient: a coefficient for @variable
*
* Sets the @coefficient for @variable inside an @expression.
*
* If the @expression does not contain a term for @variable, a new
* one will be added.
*/
void
gtk_constraint_expression_set_variable (GtkConstraintExpression *expression,
GtkConstraintVariable *variable,
double coefficient)
{
if (expression->terms != NULL)
{
Term *t = g_hash_table_lookup (expression->terms, variable);
if (t != NULL)
{
t->coefficient = coefficient;
return;
}
}
gtk_constraint_expression_add_term (expression, variable, coefficient);
}
/*< private >
* gtk_constraint_expression_add_expression:
* @a_expr: first operand
* @b_expr: second operand
* @n: the multiplication factor for @b_expr
* @subject: (nullable): a #GtkConstraintVariable
* @solver: (nullable): a #GtkConstraintSolver
*
* Adds `(@n × @b_expr)` to @a_expr.
*
* Typically, this function is used to turn two expressions in the
* form:
*
* |[
* a.x + a.width = b.x + b.width
* ]|
*
* into a single expression:
*
* |[
* a.x + a.width - b.x - b.width = 0
* ]|
*
* If @solver is not %NULL, this function will notify a #GtkConstraintSolver
* of every variable that was added or removed from @a_expr.
*/
void
gtk_constraint_expression_add_expression (GtkConstraintExpression *a_expr,
GtkConstraintExpression *b_expr,
double n,
GtkConstraintVariable *subject,
GtkConstraintSolver *solver)
{
Term *iter;
a_expr->constant += (n * b_expr->constant);
iter = b_expr->last_term;
while (iter != NULL)
{
Term *next = iter->prev;
gtk_constraint_expression_add_variable (a_expr,
iter->variable, n * iter->coefficient,
subject,
solver);
iter = next;
}
}
/*< private >
* gtk_constraint_expression_plus_constant:
* @expression: a #GtkConstraintExpression
* @constant: a constant value
*
* Adds a @constant value to the @expression.
*
* This is the equivalent of creating a new #GtkConstraintExpression for
* the @constant and calling gtk_constraint_expression_add_expression().
*
* Returns: the @expression
*/
GtkConstraintExpression *
gtk_constraint_expression_plus_constant (GtkConstraintExpression *expression,
double constant)
{
GtkConstraintExpression *e;
e = gtk_constraint_expression_new (constant);
gtk_constraint_expression_add_expression (expression, e, 1.0, NULL, NULL);
gtk_constraint_expression_unref (e);
return expression;
}
/*< private >
* gtk_constraint_expression_minus_constant:
* @expression: a #GtkConstraintExpression
* @constant: a constant value
*
* Removes a @constant value from the @expression.
*
* This is the equivalent of creating a new #GtkConstraintExpression for
* the inverse of @constant and calling gtk_constraint_expression_add_expression().
*
* Returns: the @expression
*/
GtkConstraintExpression *
gtk_constraint_expression_minus_constant (GtkConstraintExpression *expression,
double constant)
{
return gtk_constraint_expression_plus_constant (expression, constant * -1.0);
}
/*< private >
* gtk_constraint_expression_plus_variable:
* @expression: a #GtkConstraintExpression
* @variable: a #GtkConstraintVariable
*
* Adds a @variable to the @expression.
*
* Returns: the @expression
*/
GtkConstraintExpression *
gtk_constraint_expression_plus_variable (GtkConstraintExpression *expression,
GtkConstraintVariable *variable)
{
GtkConstraintExpression *e;
e = gtk_constraint_expression_new_from_variable (variable);
gtk_constraint_expression_add_expression (expression, e, 1.0, NULL, NULL);
gtk_constraint_expression_unref (e);
return expression;
}
/*< private >
* gtk_constraint_expression_minus_variable:
* @expression: a #GtkConstraintExpression
* @variable: a #GtkConstraintVariable
*
* Subtracts a @variable from the @expression.
*
* Returns: the @expression
*/
GtkConstraintExpression *
gtk_constraint_expression_minus_variable (GtkConstraintExpression *expression,
GtkConstraintVariable *variable)
{
GtkConstraintExpression *e;
e = gtk_constraint_expression_new_from_variable (variable);
gtk_constraint_expression_add_expression (expression, e, -1.0, NULL, NULL);
gtk_constraint_expression_unref (e);
return expression;
}
/*< private >
* gtk_constraint_expression_multiply_by:
* @expression: a #GtkConstraintExpression
* @factor: the multiplication factor
*
* Multiplies the constant part and the coefficient of all terms
* in @expression with the given @factor.
*
* Returns: the @expression
*/
GtkConstraintExpression *
gtk_constraint_expression_multiply_by (GtkConstraintExpression *expression,
double factor)
{
GHashTableIter iter;
gpointer value_p;
expression->constant *= factor;
if (expression->terms == NULL)
return expression;
g_hash_table_iter_init (&iter, expression->terms);
while (g_hash_table_iter_next (&iter, NULL, &value_p))
{
Term *t = value_p;
t->coefficient *= factor;
}
return expression;
}
/*< private >
* gtk_constraint_expression_divide_by:
* @expression: a #GtkConstraintExpression
* @factor: the division factor
*
* Divides the constant part and the coefficient of all terms
* in @expression by the given @factor.
*
* Returns: the @expression
*/
GtkConstraintExpression *
gtk_constraint_expression_divide_by (GtkConstraintExpression *expression,
double factor)
{
if (G_APPROX_VALUE (factor, 0.0, 0.001))
return expression;
return gtk_constraint_expression_multiply_by (expression, 1.0 / factor);
}
/*< private >
* gtk_constraint_expression_new_subject:
* @expression: a #GtkConstraintExpression
* @subject: a #GtkConstraintVariable part of @expression
*
* Modifies @expression to have a new @subject.
*
* A #GtkConstraintExpression is a linear expression in the form of
* `@expression = 0`. If @expression contains @subject, for instance:
*
* |[
* c + (a × @subject) + (a1 × v1) + … + (an × vn) = 0
* ]|
*
* this function will make @subject the new subject of the expression:
*
* |[
* subject = - (c / a) - ((a1 / a) × v1) - … - ((an / a) × vn) = 0
* ]|
*
* The term @subject is removed from the @expression.
*
* Returns: the reciprocal of the coefficient of @subject, so we
* can use this function in gtk_constraint_expression_change_subject()
*/
double
gtk_constraint_expression_new_subject (GtkConstraintExpression *expression,
GtkConstraintVariable *subject)
{
double reciprocal = 1.0;
Term *term;
g_assert (!gtk_constraint_expression_is_constant (expression));
term = g_hash_table_lookup (expression->terms, subject);
g_assert (term != NULL);
g_assert (!G_APPROX_VALUE (term->coefficient, 0.0, 0.001));
reciprocal = 1.0 / term->coefficient;
gtk_constraint_expression_remove_term (expression, subject);
gtk_constraint_expression_multiply_by (expression, -reciprocal);
return reciprocal;
}
/*< private >
* gtk_constraint_expression_change_subject:
* @expression: a #GtkConstraintExpression
* @old_subject: the old subject #GtkConstraintVariable of @expression
* @new_subject: the new subject #GtkConstraintVariable of @expression
*
* Turns an @expression in the form of:
*
* |[
* old_subject = c + (a × new_subject) + (a1 × v1) + … + (an × vn)
* ]|
*
* into the form of:
*
* |[
* new_subject = -c / a + old_subject / a - ((a1 / a) × v1) - … - ((an / a) × vn)
* ]|
*
* Which means resolving @expression for @new_subject.
*/
void
gtk_constraint_expression_change_subject (GtkConstraintExpression *expression,
GtkConstraintVariable *old_subject,
GtkConstraintVariable *new_subject)
{
double reciprocal;
g_return_if_fail (expression != NULL);
g_return_if_fail (old_subject != NULL);
g_return_if_fail (new_subject != NULL);
reciprocal = gtk_constraint_expression_new_subject (expression, new_subject);
gtk_constraint_expression_set_variable (expression, old_subject, reciprocal);
}
/*< private >
* gtk_constraint_expression_get_coefficient:
* @expression: a #GtkConstraintExpression
* @variable: a #GtkConstraintVariable
*
* Retrieves the coefficient of the term for @variable inside @expression.
*
* Returns: the coefficient of @variable
*/
double
gtk_constraint_expression_get_coefficient (GtkConstraintExpression *expression,
GtkConstraintVariable *variable)
{
const Term *term;
g_return_val_if_fail (expression != NULL, 0.0);
g_return_val_if_fail (variable != NULL, 0.0);
if (expression->terms == NULL)
return 0.0;
term = g_hash_table_lookup (expression->terms, variable);
if (term == NULL)
return 0.0;
return term->coefficient;
}
/*< private >
* gtk_constraint_expression_substitute_out:
* @expression: a #GtkConstraintExpression
* @out_var: the variable to replace
* @expr: the expression used to replace @out_var
* @subject: (nullable): a #GtkConstraintVariable
* @solver: (nullable): a #GtkConstraintSolver
*
* Replaces every term containing @out_var inside @expression with @expr.
*
* If @solver is not %NULL, this function will notify the #GtkConstraintSolver
* for every variable added to or removed from @expression.
*/
void
gtk_constraint_expression_substitute_out (GtkConstraintExpression *expression,
GtkConstraintVariable *out_var,
GtkConstraintExpression *expr,
GtkConstraintVariable *subject,
GtkConstraintSolver *solver)
{
double multiplier;
Term *iter;
if (expression->terms == NULL)
return;
multiplier = gtk_constraint_expression_get_coefficient (expression, out_var);
gtk_constraint_expression_remove_term (expression, out_var);
expression->constant = expression->constant + multiplier * expr->constant;
iter = expr->first_term;
while (iter != NULL)
{
GtkConstraintVariable *clv = iter->variable;
double coeff = iter->coefficient;
Term *next = iter->next;
if (expression->terms != NULL &&
g_hash_table_contains (expression->terms, clv))
{
double old_coefficient = gtk_constraint_expression_get_coefficient (expression, clv);
double new_coefficient = old_coefficient + multiplier * coeff;
if (G_APPROX_VALUE (new_coefficient, 0.0, 0.001))
{
if (solver != NULL)
gtk_constraint_solver_note_removed_variable (solver, clv, subject);
gtk_constraint_expression_remove_term (expression, clv);
}
else
gtk_constraint_expression_set_variable (expression, clv, new_coefficient);
}
else
{
gtk_constraint_expression_set_variable (expression, clv, multiplier * coeff);
if (solver != NULL)
gtk_constraint_solver_note_added_variable (solver, clv, subject);
}
iter = next;
}
}
/*< private >
* gtk_constraint_expression_get_pivotable_variable:
* @expression: a #GtkConstraintExpression
*
* Retrieves the first #GtkConstraintVariable in @expression that
* is marked as pivotable.
*
* Returns: (transfer none) (nullable): a #GtkConstraintVariable
*/
GtkConstraintVariable *
gtk_constraint_expression_get_pivotable_variable (GtkConstraintExpression *expression)
{
Term *iter;
if (expression->terms == NULL)
{
g_critical ("Expression %p is a constant", expression);
return NULL;
}
iter = expression->first_term;
while (iter != NULL)
{
Term *next = iter->next;
if (gtk_constraint_variable_is_pivotable (iter->variable))
return iter->variable;
iter = next;
}
return NULL;
}
/*< private >
* gtk_constraint_expression_to_string:
* @expression: a #GtkConstraintExpression
*
* Creates a string containing @expression.
*
* This function is only useful for debugging.
*
* Returns: (transfer full): a string containing the given expression
*/
char *
gtk_constraint_expression_to_string (const GtkConstraintExpression *expression)
{
gboolean needs_plus = FALSE;
GString *buf;
Term *iter;
if (expression == NULL)
return g_strdup ("<null>");
buf = g_string_new (NULL);
if (!G_APPROX_VALUE (expression->constant, 0.0, 0.001))
{
g_string_append_printf (buf, "%g", expression->constant);
if (expression->terms != NULL)
needs_plus = TRUE;
}
if (expression->terms == NULL)
return g_string_free (buf, FALSE);
iter = expression->first_term;
while (iter != NULL)
{
char *str = gtk_constraint_variable_to_string (iter->variable);
Term *next = iter->next;
if (needs_plus)
g_string_append (buf, " + ");
if (G_APPROX_VALUE (iter->coefficient, 1.0, 0.001))
g_string_append_printf (buf, "%s", str);
else
g_string_append_printf (buf, "(%g * %s)", iter->coefficient, str);
g_free (str);
if (!needs_plus)
needs_plus = TRUE;
iter = next;
}
return g_string_free (buf, FALSE);
}
/* Keep in sync with GtkConstraintExpressionIter */
typedef struct {
GtkConstraintExpression *expression;
Term *current;
gint64 age;
} RealExpressionIter;
#define REAL_EXPRESSION_ITER(i) ((RealExpressionIter *) (i))
/*< private >
* gtk_constraint_expression_iter_init:
* @iter: a #GtkConstraintExpressionIter
* @expression: a #GtkConstraintExpression
*
* Initializes an iterator over @expression.
*/
void
gtk_constraint_expression_iter_init (GtkConstraintExpressionIter *iter,
GtkConstraintExpression *expression)
{
RealExpressionIter *riter = REAL_EXPRESSION_ITER (iter);
riter->expression = expression;
riter->current = NULL;
riter->age = expression->age;
}
/*< private >
* gtk_constraint_expression_iter_next:
* @iter: a valid #GtkConstraintExpressionIter
* @variable: (out): the variable of the next term
* @coefficient: (out): the coefficient of the next term
*
* Moves the given #GtkConstraintExpressionIter forwards to the next
* term in the expression, starting from the first term.
*
* Returns: %TRUE if the iterator was moved, and %FALSE if the iterator
* has reached the end of the terms of the expression
*/
gboolean
gtk_constraint_expression_iter_next (GtkConstraintExpressionIter *iter,
GtkConstraintVariable **variable,
double *coefficient)
{
RealExpressionIter *riter = REAL_EXPRESSION_ITER (iter);
g_assert (riter->age == riter->expression->age);
if (riter->current == NULL)
riter->current = riter->expression->first_term;
else
riter->current = riter->current->next;
if (riter->current != NULL)
{
*coefficient = riter->current->coefficient;
*variable = riter->current->variable;
}
return riter->current != NULL;
}
/*< private >
* gtk_constraint_expression_iter_prev:
* @iter: a valid #GtkConstraintExpressionIter
* @variable: (out): the variable of the previous term
* @coefficient: (out): the coefficient of the previous term
*
* Moves the given #GtkConstraintExpressionIter backwards to the previous
* term in the expression, starting from the last term.
*
* Returns: %TRUE if the iterator was moved, and %FALSE if the iterator
* has reached the beginning of the terms of the expression
*/
gboolean
gtk_constraint_expression_iter_prev (GtkConstraintExpressionIter *iter,
GtkConstraintVariable **variable,
double *coefficient)
{
RealExpressionIter *riter = REAL_EXPRESSION_ITER (iter);
g_assert (riter->age == riter->expression->age);
if (riter->current == NULL)
riter->current = riter->expression->last_term;
else
riter->current = riter->current->prev;
if (riter->current != NULL)
{
*coefficient = riter->current->coefficient;
*variable = riter->current->variable;
}
return riter->current != NULL;
}
typedef enum {
BUILDER_OP_NONE,
BUILDER_OP_PLUS,
BUILDER_OP_MINUS,
BUILDER_OP_MULTIPLY,
BUILDER_OP_DIVIDE
} BuilderOpType;
typedef struct
{
GtkConstraintExpression *expression;
GtkConstraintSolver *solver;
int op;
} RealExpressionBuilder;
#define REAL_EXPRESSION_BUILDER(b) ((RealExpressionBuilder *) (b))
/*< private >
* gtk_constraint_expression_builder_init:
* @builder: a #GtkConstraintExpressionBuilder
* @solver: a #GtkConstraintSolver
*
* Initializes the given #GtkConstraintExpressionBuilder for the
* given #GtkConstraintSolver.
*
* You can use the @builder to construct expressions to be added to the
* @solver, in the form of constraints.
*
* A typical use is:
*
* |[<!-- language="C" -->
* GtkConstraintExpressionBuilder builder;
*
* // "solver" is set in another part of the code
* gtk_constraint_expression_builder_init (&builder, solver);
*
* // "width" is set in another part of the code
* gtk_constraint_expression_builder_term (&builder, width);
* gtk_constraint_expression_builder_divide_by (&builder);
* gtk_constraint_expression_builder_constant (&builder, 2.0);
*
* // "left" is set in another part of the code
* gtk_constraint_expression_builder_plus (&builder);
* gtk_constraint_expression_builder_term (&builder, left);
*
* // "expr" now contains the following expression:
* // width / 2.0 + left
* GtkConstraintExpression *expr =
* gtk_constraint_expression_builder_finish (&builder);
*
* // The builder is inert, and can be re-used by calling
* // gtk_constraint_expression_builder_init() again.
* ]|
*/
void
gtk_constraint_expression_builder_init (GtkConstraintExpressionBuilder *builder,
GtkConstraintSolver *solver)
{
RealExpressionBuilder *rbuilder = REAL_EXPRESSION_BUILDER (builder);
rbuilder->solver = solver;
rbuilder->expression = gtk_constraint_expression_new (0);
rbuilder->op = BUILDER_OP_NONE;
}
/*< private >
* gtk_constraint_expression_builder_term:
* @builder: a #GtkConstraintExpressionBuilder
* @term: a #GtkConstraintVariable
*
* Adds a variable @term to the @builder.
*/
void
gtk_constraint_expression_builder_term (GtkConstraintExpressionBuilder *builder,
GtkConstraintVariable *term)
{
RealExpressionBuilder *rbuilder = REAL_EXPRESSION_BUILDER (builder);
GtkConstraintExpression *expr;
expr = gtk_constraint_expression_new_from_variable (term);
switch (rbuilder->op)
{
case BUILDER_OP_NONE:
g_clear_pointer (&rbuilder->expression, gtk_constraint_expression_unref);
rbuilder->expression = g_steal_pointer (&expr);
break;
case BUILDER_OP_PLUS:
gtk_constraint_expression_add_expression (rbuilder->expression,
expr, 1.0,
NULL,
NULL);
gtk_constraint_expression_unref (expr);
break;
case BUILDER_OP_MINUS:
gtk_constraint_expression_add_expression (rbuilder->expression,
expr, -1.0,
NULL,
NULL);
gtk_constraint_expression_unref (expr);
break;
default:
break;
}
rbuilder->op = BUILDER_OP_NONE;
}
/*< private >
* gtk_constraint_expression_builder_plus:
* @builder: a #GtkConstraintExpressionBuilder
*
* Adds a plus operator to the @builder.
*/
void
gtk_constraint_expression_builder_plus (GtkConstraintExpressionBuilder *builder)
{
RealExpressionBuilder *rbuilder = REAL_EXPRESSION_BUILDER (builder);
rbuilder->op = BUILDER_OP_PLUS;
}
/*< private >
* gtk_constraint_expression_builder_minus:
* @builder: a #GtkConstraintExpressionBuilder
*
* Adds a minus operator to the @builder.
*/
void
gtk_constraint_expression_builder_minus (GtkConstraintExpressionBuilder *builder)
{
RealExpressionBuilder *rbuilder = REAL_EXPRESSION_BUILDER (builder);
rbuilder->op = BUILDER_OP_MINUS;
}
/*< private >
* gtk_constraint_expression_builder_divide_by:
* @builder: a #GtkConstraintExpressionBuilder
*
* Adds a division operator to the @builder.
*/
void
gtk_constraint_expression_builder_divide_by (GtkConstraintExpressionBuilder *builder)
{
RealExpressionBuilder *rbuilder = REAL_EXPRESSION_BUILDER (builder);
rbuilder->op = BUILDER_OP_DIVIDE;
}
/*< private >
* gtk_constraint_expression_builder_multiply_by:
* @builder: a #GtkConstraintExpressionBuilder
*
* Adds a multiplication operator to the @builder.
*/
void
gtk_constraint_expression_builder_multiply_by (GtkConstraintExpressionBuilder *builder)
{
RealExpressionBuilder *rbuilder = REAL_EXPRESSION_BUILDER (builder);
rbuilder->op = BUILDER_OP_MULTIPLY;
}
/*< private >
* gtk_constraint_expression_builder_constant:
* @builder: a #GtkConstraintExpressionBuilder
* @value: a constant value
*
* Adds a constant value to the @builder.
*/
void
gtk_constraint_expression_builder_constant (GtkConstraintExpressionBuilder *builder,
double value)
{
RealExpressionBuilder *rbuilder = REAL_EXPRESSION_BUILDER (builder);
switch (rbuilder->op)
{
case BUILDER_OP_NONE:
gtk_constraint_expression_set_constant (rbuilder->expression, value);
break;
case BUILDER_OP_PLUS:
gtk_constraint_expression_plus_constant (rbuilder->expression, value);
break;
case BUILDER_OP_MINUS:
gtk_constraint_expression_minus_constant (rbuilder->expression, value);
break;
case BUILDER_OP_MULTIPLY:
gtk_constraint_expression_multiply_by (rbuilder->expression, value);
break;
case BUILDER_OP_DIVIDE:
gtk_constraint_expression_divide_by (rbuilder->expression, value);
break;
default:
break;
}
rbuilder->op = BUILDER_OP_NONE;
}
/*< private >
* gtk_constraint_expression_builder_finish:
* @builder: a #GtkConstraintExpressionBuilder
*
* Closes the given expression builder, and returns the expression.
*
* You can only call this function once.
*
* Returns: (transfer full): the built expression
*/
GtkConstraintExpression *
gtk_constraint_expression_builder_finish (GtkConstraintExpressionBuilder *builder)
{
RealExpressionBuilder *rbuilder = REAL_EXPRESSION_BUILDER (builder);
rbuilder->solver = NULL;
rbuilder->op = BUILDER_OP_NONE;
return g_steal_pointer (&rbuilder->expression);
}
/* }}} */
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