simplification of apply_auto_layout
Achieved by introducing auto_group_bounds function that produces the start/end indexes of a group inside an auto layot container.
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3c84250be8
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1f47c58d63
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@ -76,9 +76,10 @@ void swayc_log(log_importance_t verbosity, swayc_t *cont, const char* format, ..
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enum swayc_layouts default_layout(swayc_t *output);
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bool is_auto_layout(enum swayc_layouts layout);
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int auto_group_start_index(swayc_t *container, int index);
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int auto_group_end_index(swayc_t *container, int index);
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size_t auto_group_count(swayc_t *container);
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size_t auto_group_index(swayc_t *container, int index);
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int auto_group_start_index(const swayc_t *container, int index);
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int auto_group_end_index(const swayc_t *container, int index);
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size_t auto_group_count(const swayc_t *container);
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size_t auto_group_index(const swayc_t *container, int index);
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bool auto_group_bounds(const swayc_t *container, size_t group_index, int *start, int *end);
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#endif
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158
sway/layout.c
158
sway/layout.c
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@ -1164,9 +1164,7 @@ void apply_auto_layout(swayc_t *container, const double x, const double y,
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// a single slave group (containing slave 1 and 2). The master
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// group and slave group are layed out using L_VERT.
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size_t nb_slaves = container->children->length - container->nb_master;
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size_t nb_groups = (container->nb_master > 0 ? 1 : 0) +
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MIN(container->nb_slave_groups, nb_slaves);
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size_t nb_groups = auto_group_count(container);
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// the target dimension of the container along the "major" axis, each
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// group in the container will be layed out using "group_layout" along
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@ -1216,74 +1214,53 @@ void apply_auto_layout(swayc_t *container, const double x, const double y,
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* layout. */
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double old_group_dim[nb_groups];
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double old_dim = 0;
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size_t group = 0;
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for (int i = 0; i < container->children->length;) {
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swayc_t *child = container->children->items[i];
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double *dim = group_layout == L_HORIZ ? &child->height : &child->width;
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if (*dim <= 0) {
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// New child with uninitialized dimension
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*dim = dim_maj;
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if (nb_groups > 1) {
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// child gets a dimension proportional to existing groups,
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// it will be later scaled based on to the available size
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// in the major axis.
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*dim /= (nb_groups - 1);
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for (size_t group = 0; group < nb_groups; ++group) {
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int idx;
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if (auto_group_bounds(container, group, &idx, NULL)) {
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swayc_t *child = container->children->items[idx];
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double *dim = group_layout == L_HORIZ ? &child->height : &child->width;
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if (*dim <= 0) {
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// New child with uninitialized dimension
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*dim = dim_maj;
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if (nb_groups > 1) {
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// child gets a dimension proportional to existing groups,
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// it will be later scaled based on to the available size
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// in the major axis.
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*dim /= (nb_groups - 1);
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}
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}
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old_dim += *dim;
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old_group_dim[group] = *dim;
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}
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if (i == 0 && container->nb_master > 0) {
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i += container->nb_master;
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} else {
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i += (nb_slaves - i + container->nb_master) / (nb_groups - group);
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}
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old_dim += *dim;
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old_group_dim[group++] = *dim;
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}
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double scale = dim_maj / old_dim;
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/* Apply layout to each group */
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pos = pos_maj;
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// first child in the current group
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int start;
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// index immediately after the last child in the current group
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int end = 0;
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for (group = 0; group < nb_groups; ++group) {
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// column to include next by increasing position.
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size_t layout_group = master_first ? group : (group + 1) % nb_groups;
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// adjusted size of the group
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group_dim = old_group_dim[layout_group] * scale;
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if (container->nb_master > 0 && layout_group == 0) {
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start = 0;
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end = MIN(container->nb_master, container->children->length);
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} else {
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if (group == 0) {
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start = container->nb_master;
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} else {
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start = end;
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for (size_t group = 0; group < nb_groups; ++group) {
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int start, end; // index of first (inclusive) and last (exclusive) child in the group
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if (auto_group_bounds(container, group, &start, &end)) {
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// adjusted size of the group
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group_dim = old_group_dim[group] * scale;
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if (group == nb_groups - 1) {
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group_dim = pos_maj + dim_maj - pos; // remaining width
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}
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sway_log(L_DEBUG, "Arranging container %p column %zu, children [%d,%d[ (%fx%f+%f,%f)",
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container, group, start, end, *group_w, *group_h, *group_x, *group_y);
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switch (group_layout) {
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default:
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case L_VERT:
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apply_vert_layout(container, *group_x, *group_y, *group_w, *group_h, start, end);
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break;
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case L_HORIZ:
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apply_horiz_layout(container, *group_x, *group_y, *group_w, *group_h, start, end);
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break;
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}
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end = start + (nb_slaves - start + container->nb_master) / (nb_groups - layout_group);
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}
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if (group == nb_groups - 1) {
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group_dim = pos_maj + dim_maj - pos; // remaining width
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}
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sway_log(L_DEBUG, "Arranging container %p column %zu, children [%d,%d[ (%fx%f+%f,%f)",
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container, group, start, end, *group_w, *group_h, *group_x, *group_y);
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switch (group_layout) {
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default:
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case L_VERT:
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apply_vert_layout(container, *group_x, *group_y, *group_w, *group_h, start, end);
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break;
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case L_HORIZ:
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apply_horiz_layout(container, *group_x, *group_y, *group_w, *group_h, start, end);
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break;
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}
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/* update position for next group */
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pos += group_dim;
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/* update position for next group */
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pos += group_dim;
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}
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}
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}
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@ -1508,7 +1485,7 @@ bool is_auto_layout(enum swayc_layouts layout) {
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/**
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* Return the number of master elements in a container
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*/
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static inline size_t auto_master_count(swayc_t *container) {
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static inline size_t auto_master_count(const swayc_t *container) {
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return MIN(container->nb_master, container->children->length);
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}
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@ -1516,21 +1493,21 @@ static inline size_t auto_master_count(swayc_t *container) {
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* Return the number of children in the slave groups. This corresponds to the children
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* that are not members of the master group.
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*/
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static inline size_t auto_slave_count(swayc_t *container) {
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static inline size_t auto_slave_count(const swayc_t *container) {
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return container->children->length - auto_master_count(container);
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}
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/**
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* Return the number of slave groups in the container.
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*/
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size_t auto_slave_group_count(swayc_t *container) {
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size_t auto_slave_group_count(const swayc_t *container) {
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return MIN(container->nb_slave_groups, auto_slave_count(container));
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}
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/**
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* Return the combined number of master and slave groups in the container.
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*/
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size_t auto_group_count(swayc_t *container) {
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size_t auto_group_count(const swayc_t *container) {
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return auto_slave_group_count(container) + (container->nb_master ? 1 : 0);
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}
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@ -1538,7 +1515,7 @@ size_t auto_group_count(swayc_t *container) {
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* given the index of a container's child, return the index of the first child of the group
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* which index is a member of.
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*/
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int auto_group_start_index(swayc_t *container, int index) {
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int auto_group_start_index(const swayc_t *container, int index) {
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if (index < 0 || ! is_auto_layout(container->layout)
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|| (size_t) index < container->nb_master) {
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return 0;
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@ -1563,7 +1540,7 @@ int auto_group_start_index(swayc_t *container, int index) {
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* that follows the one which index is a member of.
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* This makes the function usable to walk through the groups in a container.
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*/
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int auto_group_end_index(swayc_t *container, int index) {
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int auto_group_end_index(const swayc_t *container, int index) {
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if (index < 0 || ! is_auto_layout(container->layout)) {
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return container->children->length;
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} else {
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@ -1590,7 +1567,7 @@ int auto_group_end_index(swayc_t *container, int index) {
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* return the index of the Group containing <index>th child of <container>.
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* The index is the order of the group along the container's major axis (starting at 0).
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*/
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size_t auto_group_index(swayc_t *container, int index) {
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size_t auto_group_index(const swayc_t *container, int index) {
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if (index < 0) {
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return 0;
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}
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@ -1616,3 +1593,48 @@ size_t auto_group_index(swayc_t *container, int index) {
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return grp_idx + (master_first ? 1 : 0);
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}
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}
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/**
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* Return the first index (inclusive) and last index (exclusive) of the elements of a group in
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* an auto layout.
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* If the bounds of the given group can be calculated, they are returned in the start/end
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* parameters (int pointers) and the return value will be true.
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* The indexes are passed by reference and can be NULL.
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*/
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bool auto_group_bounds(const swayc_t *container, size_t group_index, int *start, int *end) {
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size_t nb_grp = auto_group_count(container);
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if (group_index >= nb_grp) {
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return false;
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}
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bool master_first = (container->layout == L_AUTO_LEFT || container->layout == L_AUTO_TOP);
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size_t nb_master = auto_master_count(container);
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size_t nb_slave_grp = auto_slave_group_count(container);
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int g_start, g_end;
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if (nb_master && (master_first ? group_index == 0 : group_index == nb_grp - 1)) {
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g_start = 0;
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g_end = nb_master;
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} else {
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size_t nb_slaves = auto_slave_count(container);
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size_t grp_sz = nb_slaves / nb_slave_grp;
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size_t remainder = nb_slaves % nb_slave_grp;
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size_t g0 = master_first && container->nb_master ? 1 : 0;
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size_t g1 = g0 + nb_slave_grp - remainder;
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if (group_index < g1) {
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g_start = container->nb_master + (group_index - g0) * grp_sz;
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g_end = g_start + grp_sz;
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} else {
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size_t g2 = group_index - g1;
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g_start = container->nb_master
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+ (nb_slave_grp - remainder) * grp_sz
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+ g2 * (grp_sz + 1);
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g_end = g_start + grp_sz + 1;
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}
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}
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if (start) {
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*start = g_start;
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}
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if (end) {
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*end = g_end;
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}
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return true;
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}
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