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Added Awesome/Monad type "auto" layouts
This commit is contained in:
parent
6a1df17fb7
commit
97f7d47413
7 changed files with 372 additions and 113 deletions
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@ -37,6 +37,13 @@ enum swayc_layouts {
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L_STACKED,
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L_TABBED,
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L_FLOATING, /**< A psuedo-container, removed from the tree, to hold floating windows */
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/* Awesome/Monad style auto layouts */
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L_AUTO_LEFT,
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L_AUTO_RIGHT,
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L_AUTO_TOP,
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L_AUTO_BOTTOM,
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// Keep last
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L_LAYOUTS,
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};
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@ -144,6 +151,16 @@ struct sway_container {
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struct wlc_geometry title_bar_geometry;
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struct wlc_geometry actual_geometry;
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int border_thickness;
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/**
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* Number of master views in auto layouts.
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*/
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uint32_t nb_master;
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/**
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* Number of slave groups (e.g. columns) in auto layouts.
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*/
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uint32_t nb_slave_groups;
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};
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enum visibility_mask {
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@ -75,4 +75,7 @@ void swayc_log(log_importance_t verbosity, swayc_t *cont, const char* format, ..
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*/
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enum swayc_layouts default_layout(swayc_t *output);
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inline bool is_auto_layout(enum swayc_layouts layout) {
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return (layout >= L_AUTO_LEFT) && (layout <= L_AUTO_BOTTOM);
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}
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#endif
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@ -54,6 +54,26 @@ struct cmd_results *cmd_layout(int argc, char **argv) {
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} else {
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swayc_change_layout(parent, L_HORIZ);
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}
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} else if (strcasecmp(argv[0], "auto_left") == 0) {
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if (parent->type != C_CONTAINER && !swayc_is_empty_workspace(parent)){
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parent = new_container(parent, L_AUTO_LEFT);
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}
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swayc_change_layout(parent, L_AUTO_LEFT);
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} else if (strcasecmp(argv[0], "auto_right") == 0) {
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if (parent->type != C_CONTAINER && !swayc_is_empty_workspace(parent)){
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parent = new_container(parent, L_AUTO_RIGHT);
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}
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swayc_change_layout(parent, L_AUTO_RIGHT);
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} else if (strcasecmp(argv[0], "auto_top") == 0) {
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if (parent->type != C_CONTAINER && !swayc_is_empty_workspace(parent)){
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parent = new_container(parent, L_AUTO_TOP);
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}
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swayc_change_layout(parent, L_AUTO_TOP);
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} else if (strcasecmp(argv[0], "auto_bot") == 0) {
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if (parent->type != C_CONTAINER && !swayc_is_empty_workspace(parent)){
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parent = new_container(parent, L_AUTO_BOTTOM);
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}
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swayc_change_layout(parent, L_AUTO_BOTTOM);
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}
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}
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@ -32,6 +32,8 @@ static swayc_t *new_swayc(enum swayc_types type) {
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c->layout = L_NONE;
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c->workspace_layout = L_NONE;
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c->type = type;
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c->nb_master = 1;
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c->nb_slave_groups = 1;
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if (type != C_VIEW) {
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c->children = create_list();
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}
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@ -38,6 +38,10 @@ static void container_log(const swayc_t *c, int depth) {
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c->layout == L_STACKED ? "Stack":
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c->layout == L_TABBED ? "Tab":
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c->layout == L_FLOATING ? "Float":
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c->layout == L_AUTO_LEFT ? "A_lft":
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c->layout == L_AUTO_RIGHT ? "A_rgt":
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c->layout == L_AUTO_TOP ? "A_top":
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c->layout == L_AUTO_BOTTOM ? "A_bot":
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"Unknown");
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fprintf(stderr, "w:%4.f|h:%4.f|", c->width, c->height);
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fprintf(stderr, "x:%4.f|y:%4.f|", c->x, c->y);
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436
sway/layout.c
436
sway/layout.c
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@ -118,7 +118,11 @@ swayc_t *add_sibling(swayc_t *fixed, swayc_t *active) {
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list_add(parent->floating, active);
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} else {
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int i = index_child(fixed);
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list_insert(parent->children, i + 1, active);
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if (is_auto_layout(parent->layout)) {
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list_add(parent->children, active);
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} else {
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list_insert(parent->children, i + 1, active);
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}
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}
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}
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active->parent = parent;
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@ -769,6 +773,26 @@ void update_geometry(swayc_t *container) {
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}
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}
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/**
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* Layout application prototypes
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*/
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static void apply_horiz_layout(swayc_t *container, const double x,
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const double y, const double width,
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const double height, const int start,
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const int end);
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static void apply_vert_layout(swayc_t *container, const double x,
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const double y, const double width,
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const double height, const int start,
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const int end);
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static void apply_tabbed_or_stacked_layout(swayc_t *container, double x,
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double y, double width,
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double height);
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static void apply_auto_layout(swayc_t *container, const double x, const double y,
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const double width, const double height,
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enum swayc_layouts group_layout,
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bool master_first);
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static void arrange_windows_r(swayc_t *container, double width, double height) {
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int i;
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if (width == -1 || height == -1) {
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@ -776,14 +800,15 @@ static void arrange_windows_r(swayc_t *container, double width, double height) {
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width = container->width;
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height = container->height;
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}
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// pixels are indivisable. if we don't round the pixels, then the view
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// pixels are indivisible. if we don't round the pixels, then the view
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// calculations will be off (e.g. 50.5 + 50.5 = 101, but in reality it's
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// 50 + 50 = 100). doing it here cascades properly to all width/height/x/y.
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width = floor(width);
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height = floor(height);
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sway_log(L_DEBUG, "Arranging layout for %p %s %fx%f+%f,%f", container,
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container->name, container->width, container->height, container->x, container->y);
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container->name, container->width, container->height, container->x,
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container->y);
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double x = 0, y = 0;
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switch (container->type) {
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@ -895,132 +920,46 @@ static void arrange_windows_r(swayc_t *container, double width, double height) {
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break;
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}
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double scale = 0;
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switch (container->layout) {
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case L_HORIZ:
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default:
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// Calculate total width
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for (i = 0; i < container->children->length; ++i) {
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double *old_width = &((swayc_t *)container->children->items[i])->width;
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if (*old_width <= 0) {
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if (container->children->length > 1) {
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*old_width = width / (container->children->length - 1);
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} else {
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*old_width = width;
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}
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}
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scale += *old_width;
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}
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// Resize windows
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if (scale > 0.1) {
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scale = width / scale;
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sway_log(L_DEBUG, "Arranging %p horizontally", container);
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swayc_t *focused = NULL;
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for (i = 0; i < container->children->length; ++i) {
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swayc_t *child = container->children->items[i];
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sway_log(L_DEBUG, "Calculating arrangement for %p:%d (will scale %f by %f)", child, child->type, width, scale);
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child->x = x;
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child->y = y;
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if (child == container->focused) {
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focused = child;
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}
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if (i == container->children->length - 1) {
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double remaining_width = container->x + width - x;
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arrange_windows_r(child, remaining_width, height);
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} else {
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arrange_windows_r(child, child->width * scale, height);
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}
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x += child->width;
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}
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// update focused view border last because it may
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// depend on the title bar geometry of its siblings.
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if (focused && container->children->length > 1) {
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update_container_border(focused);
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}
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}
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apply_horiz_layout(container, x, y, width, height, 0,
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container->children->length);
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break;
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case L_VERT:
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// Calculate total height
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for (i = 0; i < container->children->length; ++i) {
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double *old_height = &((swayc_t *)container->children->items[i])->height;
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if (*old_height <= 0) {
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if (container->children->length > 1) {
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*old_height = height / (container->children->length - 1);
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} else {
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*old_height = height;
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}
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}
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scale += *old_height;
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}
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// Resize
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if (scale > 0.1) {
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scale = height / scale;
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sway_log(L_DEBUG, "Arranging %p vertically", container);
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swayc_t *focused = NULL;
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for (i = 0; i < container->children->length; ++i) {
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swayc_t *child = container->children->items[i];
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sway_log(L_DEBUG, "Calculating arrangement for %p:%d (will scale %f by %f)", child, child->type, height, scale);
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child->x = x;
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child->y = y;
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if (child == container->focused) {
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focused = child;
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}
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if (i == container->children->length - 1) {
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double remaining_height = container->y + height - y;
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arrange_windows_r(child, width, remaining_height);
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} else {
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arrange_windows_r(child, width, child->height * scale);
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}
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y += child->height;
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}
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// update focused view border last because it may
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// depend on the title bar geometry of its siblings.
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if (focused && container->children->length > 1) {
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update_container_border(focused);
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}
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}
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apply_vert_layout(container, x, y, width, height, 0,
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container->children->length);
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break;
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case L_TABBED:
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case L_STACKED:
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{
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swayc_t *focused = NULL;
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for (i = 0; i < container->children->length; ++i) {
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swayc_t *child = container->children->items[i];
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child->x = x;
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child->y = y;
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if (child == container->focused) {
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focused = child;
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} else {
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arrange_windows_r(child, width, height);
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}
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}
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if (focused) {
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arrange_windows_r(focused, width, height);
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}
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break;
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}
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apply_tabbed_or_stacked_layout(container, x, y, width, height);
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break;
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case L_AUTO_LEFT:
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apply_auto_layout(container, x, y, width, height, L_VERT, true);
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break;
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case L_AUTO_RIGHT:
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apply_auto_layout(container, x, y, width, height, L_VERT, false);
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break;
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case L_AUTO_TOP:
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apply_auto_layout(container, x, y, width, height, L_HORIZ, true);
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break;
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case L_AUTO_BOTTOM:
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apply_auto_layout(container, x, y, width, height, L_HORIZ, false);
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break;
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}
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// Arrage floating layouts for workspaces last
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if (container->type == C_WORKSPACE) {
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for (i = 0; i < container->floating->length; ++i) {
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for (int i = 0; i < container->floating->length; ++i) {
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swayc_t *view = container->floating->items[i];
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if (view->type == C_VIEW) {
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update_geometry(view);
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sway_log(L_DEBUG, "Set floating view to %.f x %.f @ %.f, %.f", view->width,
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view->height, view->x, view->y);
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sway_log(L_DEBUG, "Set floating view to %.f x %.f @ %.f, %.f",
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view->width, view->height, view->x, view->y);
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if (swayc_is_fullscreen(view)) {
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wlc_view_bring_to_front(view->handle);
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} else if (!container->focused
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|| !swayc_is_fullscreen(container->focused)) {
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} else if (!container->focused ||
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!swayc_is_fullscreen(container->focused)) {
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wlc_view_bring_to_front(view->handle);
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}
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}
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@ -1028,6 +967,279 @@ static void arrange_windows_r(swayc_t *container, double width, double height) {
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}
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}
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void apply_horiz_layout(swayc_t *container, const double x, const double y,
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const double width, const double height,
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const int start, const int end) {
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double scale = 0;
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// Calculate total width
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for (int i = start; i < end; ++i) {
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double *old_width = &((swayc_t *)container->children->items[i])->width;
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if (*old_width <= 0) {
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if (end - start > 1) {
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*old_width = width / (end - start - 1);
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} else {
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*old_width = width;
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}
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}
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scale += *old_width;
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}
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// Resize windows
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double child_x = x;
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if (scale > 0.1) {
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scale = width / scale;
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sway_log(L_DEBUG, "Arranging %p horizontally", container);
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swayc_t *focused = NULL;
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for (int i = start; i < end; ++i) {
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swayc_t *child = container->children->items[i];
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sway_log(L_DEBUG,
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"Calculating arrangement for %p:%d (will scale %f by %f)", child,
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child->type, width, scale);
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child->x = child_x;
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child->y = y;
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if (child == container->focused) {
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focused = child;
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}
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if (i == end - 1) {
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double remaining_width = x + width - child_x;
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arrange_windows_r(child, remaining_width, height);
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} else {
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arrange_windows_r(child, child->width * scale, height);
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}
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child_x += child->width;
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}
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// update focused view border last because it may
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// depend on the title bar geometry of its siblings.
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if (focused && container->children->length > 1) {
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update_container_border(focused);
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}
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}
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}
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void apply_vert_layout(swayc_t *container, const double x, const double y,
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const double width, const double height, const int start,
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const int end) {
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int i;
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double scale = 0;
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// Calculate total height
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for (i = start; i < end; ++i) {
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double *old_height = &((swayc_t *)container->children->items[i])->height;
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if (*old_height <= 0) {
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if (end - start > 1) {
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*old_height = height / (end - start - 1);
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} else {
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*old_height = height;
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}
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}
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scale += *old_height;
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}
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// Resize
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double child_y = y;
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if (scale > 0.1) {
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scale = height / scale;
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sway_log(L_DEBUG, "Arranging %p vertically", container);
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swayc_t *focused = NULL;
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for (i = start; i < end; ++i) {
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swayc_t *child = container->children->items[i];
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sway_log(L_DEBUG,
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"Calculating arrangement for %p:%d (will scale %f by %f)", child,
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child->type, height, scale);
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child->x = x;
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child->y = child_y;
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if (child == container->focused) {
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focused = child;
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}
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if (i == end - 1) {
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double remaining_height = y + height - child_y;
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arrange_windows_r(child, width, remaining_height);
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} else {
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arrange_windows_r(child, width, child->height * scale);
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}
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child_y += child->height;
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}
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// update focused view border last because it may
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// depend on the title bar geometry of its siblings.
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if (focused && container->children->length > 1) {
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update_container_border(focused);
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}
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}
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}
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void apply_tabbed_or_stacked_layout(swayc_t *container, double x, double y,
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double width, double height) {
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int i;
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swayc_t *focused = NULL;
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for (i = 0; i < container->children->length; ++i) {
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swayc_t *child = container->children->items[i];
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child->x = x;
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child->y = y;
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if (child == container->focused) {
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focused = child;
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} else {
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arrange_windows_r(child, width, height);
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}
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}
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if (focused) {
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arrange_windows_r(focused, width, height);
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}
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}
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void apply_auto_layout(swayc_t *container, const double x, const double y,
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const double width, const double height,
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enum swayc_layouts group_layout,
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bool master_first) {
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// Auto layout "container" in width x height @ x, y
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// using "group_layout" for each of the groups in the container.
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// There is one "master" group, plus container->nb_slave_groups.
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// Each group is layed out side by side following the "major" axis.
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// The direction of the layout used for groups is the "minor" axis.
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// Example:
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//
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// ---- major axis -->
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// +---------+-----------+
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// | | | |
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// | master | slave 1 | |
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// | +-----------+ | minor axis (direction of group_layout)
|
||||
// | | | |
|
||||
// | | slave 2 | V
|
||||
// +---------+-----------+
|
||||
//
|
||||
// container with three children (one master and two slaves) and
|
||||
// a single slave group (containing slave 1 and 2). The master
|
||||
// group and slave group are layed out using L_VERT.
|
||||
|
||||
uint_fast32_t nb_slaves = container->children->length - container->nb_master;
|
||||
uint_fast32_t nb_groups = (container->nb_master > 0 ? 1 : 0) +
|
||||
MIN(container->nb_slave_groups, nb_slaves);
|
||||
|
||||
// the target dimension of the container along the "major" axis, each
|
||||
// group in the container will be layed out using "group_layout" along
|
||||
// the "minor" axis.
|
||||
double dim_maj;
|
||||
double pos_maj;
|
||||
|
||||
// x and y coords for the next group to be laid out.
|
||||
const double *group_x, *group_y;
|
||||
|
||||
// pos of the next group to layout along the major axis
|
||||
double pos;
|
||||
|
||||
// size of the next group along the major axis.
|
||||
double group_dim;
|
||||
|
||||
// height and width of next group to be laid out.
|
||||
const double *group_h, *group_w;
|
||||
|
||||
switch(group_layout) {
|
||||
default:
|
||||
sway_log(L_ERROR, "Unknown layout type (%d) used in %s()",
|
||||
group_layout, __func__);
|
||||
/* fall through */
|
||||
case L_VERT:
|
||||
dim_maj = width;
|
||||
pos_maj = x;
|
||||
|
||||
group_x = &pos;
|
||||
group_y = &y;
|
||||
group_w = &group_dim;
|
||||
group_h = &height;
|
||||
break;
|
||||
case L_HORIZ:
|
||||
dim_maj = height;
|
||||
pos_maj = y;
|
||||
|
||||
group_x = &x;
|
||||
group_y = &pos;
|
||||
group_w = &width;
|
||||
group_h = &group_dim;
|
||||
break;
|
||||
}
|
||||
|
||||
/* Determine the dimension of each of the groups in the layout.
|
||||
* Dimension will be width for a VERT layout and height for a HORIZ
|
||||
* layout. */
|
||||
double old_group_dim[nb_groups];
|
||||
double old_dim = 0;
|
||||
uint_fast32_t group = 0;
|
||||
for (int i = 0; i < container->children->length;) {
|
||||
swayc_t *child = container->children->items[i];
|
||||
double *dim = group_layout == L_HORIZ ? &child->height : &child->width;
|
||||
if (*dim <= 0) {
|
||||
// New child with uninitialized dimension
|
||||
*dim = dim_maj;
|
||||
if (nb_groups > 1) {
|
||||
// child gets a dimension proportional to existing groups,
|
||||
// it will be later scaled based on to the available size
|
||||
// in the major axis.
|
||||
*dim /= (nb_groups - 1);
|
||||
}
|
||||
}
|
||||
if (i == 0 && container->nb_master > 0) {
|
||||
i += container->nb_master;
|
||||
} else {
|
||||
i += (nb_slaves - i + container->nb_master) / (nb_groups - group);
|
||||
}
|
||||
old_dim += *dim;
|
||||
old_group_dim[group++] = *dim;
|
||||
}
|
||||
|
||||
double scale = dim_maj / old_dim;
|
||||
|
||||
/* Apply layout to each group */
|
||||
pos = pos_maj;
|
||||
|
||||
// first child in the current group
|
||||
int start;
|
||||
|
||||
// index immediately after the last child in the current group
|
||||
int end = 0;
|
||||
|
||||
for (group = 0; group < nb_groups; ++group) {
|
||||
// column to include next by increasing position.
|
||||
uint_fast32_t layout_group = master_first ? group : (group + 1) % nb_groups;
|
||||
|
||||
// adjusted size of the group
|
||||
group_dim = old_group_dim[layout_group] * scale;
|
||||
if (container->nb_master > 0 && layout_group == 0) {
|
||||
start = 0;
|
||||
end = container->nb_master;
|
||||
} else {
|
||||
if (group == 0) {
|
||||
start = container->nb_master;
|
||||
} else {
|
||||
start = end;
|
||||
}
|
||||
end = start +
|
||||
(nb_slaves - start + container->nb_master) / (nb_groups - layout_group);
|
||||
}
|
||||
if (group == nb_groups - 1) {
|
||||
group_dim = pos_maj + dim_maj - pos; // remaining width
|
||||
}
|
||||
sway_log(L_DEBUG, "Arranging container %p column %" PRIuFAST32
|
||||
", children [%d,%d[ (%fx%f+%f,%f)",
|
||||
container, group, start, end, *group_w, *group_h, *group_x, *group_y);
|
||||
switch (group_layout) {
|
||||
default:
|
||||
case L_VERT:
|
||||
apply_vert_layout(container, *group_x, *group_y, *group_w, *group_h, start, end);
|
||||
break;
|
||||
case L_HORIZ:
|
||||
apply_horiz_layout(container, *group_x, *group_y, *group_w, *group_h, start, end);
|
||||
break;
|
||||
}
|
||||
|
||||
/* update position for next group */
|
||||
pos += group_dim;
|
||||
}
|
||||
}
|
||||
|
||||
void arrange_windows(swayc_t *container, double width, double height) {
|
||||
update_visibility(container);
|
||||
arrange_windows_r(container, width, height);
|
||||
|
|
|
@ -81,7 +81,8 @@ They are expected to be used with **bindsym** or at runtime through **swaymsg**(
|
|||
|
||||
**layout** <mode>::
|
||||
Sets the layout mode of the focused container. _mode_ can be one of _splith_,
|
||||
_splitv_, _toggle split_, _stacking_ or _tabbed_.
|
||||
_splitv_, _toggle split_, _stacking_, _tabbed_, _auto_left_, _auto_right_,
|
||||
_auto_top, _auto_bottom_.
|
||||
|
||||
**move** <left|right|up|down>::
|
||||
Moves the focused container _left_, _right_, _up_, or _down_.
|
||||
|
|
Loading…
Reference in a new issue