Merge branch 'fast-scroll'

2026-02-24 01:40:12 -05:00 · 2019-07-03 22:30:00 +02:00 · 2019-07-03 22:30:00 +02:00 · 9f12bca21e
commit 9f12bca21e
parent 9e3b8ab3ff 35d5035f61
10 changed files with 610 additions and 253 deletions
--- a/csi.c
+++ b/csi.c
@ -10,7 +10,7 @@
 #endif
 #define LOG_MODULE "csi"
-#define LOG_ENABLE_DBG 1
+#define LOG_ENABLE_DBG 0
 #include "log.h"
 #include "grid.h"
@ -57,10 +57,6 @@ initialize_colors256(void)
                    b * 51 / 255.0,
                    1.0,
                };
 #if 0
                colors256[16 + r * 6 * 6 + g * 6 + b] =
                    (51 * r) << 24 | (51 * g) << 16 | (51 * b) << 8 | 0xff;
 #endif
            }
        }
    }
@ -72,7 +68,6 @@ initialize_colors256(void)
            i * 11 / 255.0,
            1.0
        };
            //(11 * i) << 24 | (11 * i) << 16 | (11 * i) << 8 | 0xff;
    }
 }
@ -280,7 +275,7 @@ csi_dispatch(struct terminal *term, uint8_t final)
                      i == term->vt.params.idx - 1 ? "" : ";");
    }
-    c += snprintf(&log[c], sizeof(log) - c, "%c (%zu parameters)",
+    c += snprintf(&log[c], sizeof(log) - c, "%c (%d parameters)",
                  final, term->vt.params.idx);
    LOG_DBG("%s", log);
 #endif
@ -292,11 +287,7 @@ csi_dispatch(struct terminal *term, uint8_t final)
        case 'd': {
            /* VPA - vertical line position absolute */
-            int row = param_get(term, 0, 1);
+            int row = min(param_get(term, 0, 1), term->rows);
            if (row > term->rows)
                row = term->rows;
            term_cursor_to(term, row - 1, term->cursor.col);
            break;
        }
@ -323,25 +314,15 @@ csi_dispatch(struct terminal *term, uint8_t final)
        case 'G': {
            /* Cursor horizontal absolute */
-            int col = param_get(term, 0, 1);
+            int col = min(param_get(term, 0, 1), term->cols);
-
+            term_cursor_to(term, term->cursor.row, col - 1);
            if (col > term->cols)
                col = term->cols;
            term_cursor_to(term, term->cursor.row, col);
            break;
        }
        case 'H': {
            /* Move cursor */
-            int row = param_get(term, 0, 1);
+            int row = min(param_get(term, 0, 1), term->rows);
-            int col = param_get(term, 1, 1);
+            int col = min(param_get(term, 1, 1), term->cols);
            if (row > term->rows)
                row = term->rows;
            if (col > term->cols)
                col = term->cols;
            term_cursor_to(term, row - 1, col - 1);
            break;
        }
@ -452,27 +433,49 @@ csi_dispatch(struct terminal *term, uint8_t final)
        case 'P': {
            /* DCH: Delete character */
            int count = param_get(term, 0, 1);
-            /* Only delete up to the right margin */
+            /* Number of characters to delete */
-            const int max_end = term_cursor_linear(
+            int count = min(
-                term, term->cursor.row, term->cols);
+                param_get(term, 0, 1), term->cols - term->cursor.col);
-            int start = term->cursor.linear;
+            /* Number of characters left after deletion (on current line) */
-            int end = min(start + count, max_end);
+            int remaining = term->cols - (term->cursor.col + count);
-            /* Erase the requested number of characters */
+            /* 'Delete' characters by moving the remaining ones */
-            term_erase(term, start, end);
+            memmove(&term->grid->cur_line[term->cursor.col],
-
+                    &term->grid->cur_line[term->cursor.col + count],
-            /* Move remaining (up til the right margin) characters */
+                    remaining * sizeof(term->grid->cur_line[0]));
            int remaining = max_end - end;
            memmove(&term->grid->cells[start],
                    &term->grid->cells[end],
                    remaining * sizeof(term->grid->cells[0]));
            term_damage_update(term, term->cursor.linear, remaining);
            /* Erase the remainder of the line */
            term_erase(
                term, term->cursor.linear + remaining,
                term->cursor.linear + remaining + count);
            break;
        }
        case 'X': {
            /* Erase chars */
            int count = min(
                param_get(term, 0, 1), term->cols - term->cursor.col);
            memset(&term->grid->cur_line[term->cursor.col],
                   0, count * sizeof(term->grid->cur_line[0]));
            term_damage_erase(term, term->cursor.linear, count);
            break;
        }
        case 'h':
            /* smir - insert mode enable */
            assert(false && "untested");
            term->insert_mode = true;
            break;
        case 'l':
            /* rmir - insert mode disable */
            term->insert_mode = false;
            break;
        case 'r': {
            int start = param_get(term, 0, 1);
            int end = param_get(term, 1, term->rows);
@ -481,9 +484,11 @@ csi_dispatch(struct terminal *term, uint8_t final)
            term->scroll_region.start = start - 1;
            term->scroll_region.end = end;
-            LOG_INFO("scroll region: %d-%d",
+            term_cursor_to(term, start - 1, 0);
-                     term->scroll_region.start,
+
-                     term->scroll_region.end);
+            LOG_DBG("scroll region: %d-%d",
                    term->scroll_region.start,
                    term->scroll_region.end);
            break;
        }
@ -560,12 +565,16 @@ csi_dispatch(struct terminal *term, uint8_t final)
                    LOG_WARN("unimplemented: flash");
                    break;
                case 7:
                    term->auto_margin = true;
                    break;
                case 12:
                    LOG_WARN("unimplemented: cursor blinking");
                    break;
                case 25:
-                    LOG_WARN("unimplemented: civis");
+                    term->hide_cursor = false;
                    break;
                case 1000:
@ -576,15 +585,28 @@ csi_dispatch(struct terminal *term, uint8_t final)
                    LOG_WARN("unimplemented: report cell mouse motion");
                    break;
                case 1005:
                    LOG_WARN("unimplemented: UTF-8 mouse");
                    break;
                case 1006:
                    LOG_WARN("unimplemented: SGR mouse");
                    break;
                case 1015:
                    LOG_WARN("unimplemented: URXVT mosue");
                    break;
                case 1049:
                    if (term->grid != &term->alt) {
                        term->grid = &term->alt;
                        term->saved_cursor = term->cursor;
-                        term_damage_all(term);
+
                        term_cursor_to(term, term->cursor.row, term->cursor.col);
                        tll_free(term->alt.damage);
                        tll_free(term->alt.scroll_damage);
                        term_erase(term, 0, term->rows * term->cols);
                    }
                    break;
@ -613,12 +635,16 @@ csi_dispatch(struct terminal *term, uint8_t final)
                    LOG_WARN("unimplemented: flash");
                    break;
                case 7:
                    term->auto_margin = false;
                    break;
                case 12:
                    LOG_WARN("unimplemented: cursor blinking");
                    break;
                case 25:
-                    LOG_WARN("unimplemented: civis");
+                    term->hide_cursor = true;
                    break;
                case 1000:
@ -629,19 +655,27 @@ csi_dispatch(struct terminal *term, uint8_t final)
                    LOG_WARN("unimplemented: report cell mouse motion");
                    break;
                case 1005:
                    LOG_WARN("unimplemented: UTF-8 mouse");
                    break;
                case 1006:
                    LOG_WARN("unimplemented: SGR mouse");
                    break;
                case 1015:
                    LOG_WARN("unimplemented: URXVT mosue");
                    break;
                case 1049:
                    if (term->grid == &term->alt) {
                        term->grid = &term->normal;
                        term->cursor = term->saved_cursor;
                        term_cursor_to(term, term->cursor.row, term->cursor.col);
-                        /* Should these be restored from saved values? */
+                        tll_free(term->alt.damage);
-                        term->scroll_region.start = 0;
+                        tll_free(term->alt.scroll_damage);
                        term->scroll_region.end = term->rows;
                        term_damage_all(term);
                    }
@ -661,8 +695,40 @@ csi_dispatch(struct terminal *term, uint8_t final)
            break;
        }
        case 's':
            for (size_t i = 0; i < term->vt.params.idx; i++) {
                switch (term->vt.params.v[i].value) {
                case 1001:  /* save old highlight mouse tracking mode? */
                    LOG_WARN(
                        "unimplemented: CSI ?1001s "
                        "(save 'highlight mouse tracking' mode)");
                    break;
                default:
                    LOG_ERR("unimplemented: CSI ?%ds", term->vt.params.v[i].value);
                    abort();
                }
            }
            break;
        case 'r':
            for (size_t i = 0; i < term->vt.params.idx; i++) {
                switch (term->vt.params.v[i].value) {
                case 1001:  /* restore old highlight mouse tracking mode? */
                    LOG_WARN(
                        "unimplemented: CSI ?1001r "
                        "(restore 'highlight mouse tracking' mode)");
                    break;
                default:
                    LOG_ERR("unimplemented: CSI ?%dr", term->vt.params.v[i].value);
                    abort();
                }
            }
            break;
        default:
-            LOG_ERR("CSI: intermediate '?': unimplemented final: %c", final);
+            LOG_ERR("unimplemented: CSI: ?%c", final);
            abort();
        }
--- a/grid.c
+++ b/grid.c
@ -4,5 +4,75 @@
 #include <assert.h>
 #define LOG_MODULE "grid"
-#define LOG_ENABLE_DBG 1
+#define LOG_ENABLE_DBG 0
 #include "log.h"
 struct cell *
 grid_get_range(struct grid *grid, int start, int *length)
 {
 #define min(x, y) ((x) < (y) ? (x) : (y))
    assert(*length <= grid->size);
    int real_start = (grid->offset + start) % grid->size;
    if (real_start < 0)
        real_start += grid->size;
    assert(real_start >= 0);
    assert(real_start < grid->size);
    *length = min(*length, grid->size - real_start);
    assert(real_start + *length <= grid->size);
    return &grid->cells[real_start];
 #undef min
 }
 void
 grid_memset(struct grid *grid, int start, int c, int length)
 {
    int left = length;
    while (left > 0) {
        int count = left;
        struct cell *cells = grid_get_range(grid, start, &count);
        assert(count > 0);
        assert(count <= left);
        memset(cells, c, count * sizeof(cells[0]));
        left -= count;
        start += count;
    }
 }
 void
 grid_memmove(struct grid *grid, int dst, int src, int length)
 {
    int left = length;
    int copy_idx = 0;
    struct cell copy[left];
    while (left > 0) {
        int count = left;
        struct cell *src_cells = grid_get_range(grid, src, &count);
        memcpy(&copy[copy_idx], src_cells, count * sizeof(copy[0]));
        left -= count;
        src += count;
        copy_idx += count;
    }
    left = length;
    copy_idx = 0;
    while (left > 0) {
        int count = left;
        struct cell *dst_cells = grid_get_range(grid, dst, &count);
        memcpy(dst_cells, &copy[copy_idx], count * sizeof(copy[0]));
        left -= count;
        dst += count;
        copy_idx += count;
    }
 }
--- a/grid.h
+++ b/grid.h
@ -1,3 +1,8 @@
 #pragma once
 #include <stddef.h>
 #include "terminal.h"
 struct cell *grid_get_range(struct grid *grid, int start, int *length);
 void grid_memset(struct grid *grid, int start, int c, int length);
 void grid_memmove(struct grid *grid, int dst, int src, int length);
--- a/input.c
+++ b/input.c
@ -10,7 +10,7 @@
 #include <xkbcommon/xkbcommon-keysyms.h>
 #define LOG_MODULE "input"
-#define LOG_ENABLE_DBG 1
+#define LOG_ENABLE_DBG 0
 #include "log.h"
 #include "terminal.h"
--- a/main.c
+++ b/main.c
@ -6,7 +6,9 @@
 #include <assert.h>
 #include <fcntl.h>
 #include <locale.h>
 #include <getopt.h>
 #include <poll.h>
 #include <errno.h>
 #include <sys/ioctl.h>
 //#include <termios.h>
@ -15,7 +17,7 @@
 #include <xdg-shell.h>
 #define LOG_MODULE "main"
-#define LOG_ENABLE_DBG 1
+#define LOG_ENABLE_DBG 0
 #include "log.h"
 #include "font.h"
@ -48,7 +50,7 @@ struct wayland {
 struct context {
    bool quit;
-    cairo_scaled_font_t *fonts[8];
+    cairo_scaled_font_t *fonts[4];
    cairo_font_extents_t fextents;
    int width;
@ -61,7 +63,6 @@ struct context {
    bool frame_is_scheduled;
 };
 static void frame_callback(
    void *data, struct wl_callback *wl_callback, uint32_t callback_data);
@ -76,27 +77,66 @@ attrs_to_font(struct context *c, const struct attributes *attrs)
    return c->fonts[idx];
 }
 struct glyph_sequence {
    cairo_glyph_t glyphs[10000];
    cairo_glyph_t *g;
    int count;
    struct attributes attrs;
    struct rgba foreground;
 };
 static void
 grid_render_update(struct context *c, struct buffer *buf, const struct damage *dmg)
 {
-    LOG_DBG("damage: UPDATE: %d -> %d",
+    LOG_DBG("damage: UPDATE: %d -> %d (offset = %d)",
-            dmg->range.start, dmg->range.start + dmg->range.length);
+            (dmg->range.start - c->term.grid->offset) % c->term.grid->size,
            (dmg->range.start - c->term.grid->offset) % c->term.grid->size + dmg->range.length,
        c->term.grid->offset);
    int start = dmg->range.start;
    int length = dmg->range.length;
    if (start < c->term.grid->offset) {
        int end = start + length;
        if (end >= c->term.grid->offset) {
            start = c->term.grid->offset;
            length = end - start;
        } else
            return;
    }
    const int cols = c->term.cols;
-    for (int linear_cursor = dmg->range.start,
+    struct glyph_sequence gseq = {.g = gseq.glyphs};
-             row = dmg->range.start / cols,
+
-             col = dmg->range.start % cols;
+    for (int linear_cursor = start,
-         linear_cursor < dmg->range.start + dmg->range.length;
+             row = ((start - c->term.grid->offset) % c->term.grid->size) / cols,
             col = ((start - c->term.grid->offset) % c->term.grid->size) % cols;
         linear_cursor < start + length;
         linear_cursor++,
             //col = (col + 1) % cols,
             col = col + 1 >= c->term.cols ? 0 : col + 1,
             row += col == 0 ? 1 : 0)
    {
        //LOG_DBG("UPDATE: %d (%dx%d)", linear_cursor, row, col);
-        const struct cell *cell = &c->term.grid->cells[linear_cursor];
+        assert(row >= 0);
-        bool has_cursor = c->term.cursor.linear == linear_cursor;
+        assert(row < c->term.rows);
        assert(col >= 0);
        assert(col < c->term.cols);
        int cell_idx = linear_cursor % c->term.grid->size;
        if (cell_idx < 0)
            cell_idx += c->term.grid->size;
        assert(cell_idx >= 0);
        assert(cell_idx < c->term.rows * c->term.cols);
        const struct cell *cell = &c->term.grid->cells[cell_idx];
        /* Cursor here? */
        bool has_cursor
            = (!c->term.hide_cursor &&
               (c->term.cursor.linear == linear_cursor - c->term.grid->offset));
        int x = col * c->term.cell_width;
        int y = row * c->term.cell_height;
@ -120,15 +160,9 @@ grid_render_update(struct context *c, struct buffer *buf, const struct damage *d
            background = swap;
        }
-        //LOG_DBG("cell %dx%d dirty: c=0x%02x (%c)",
+        /* Background */
        //        row, col, cell->c[0], cell->c[0]);
        cairo_scaled_font_t *font = attrs_to_font(c, &cell->attrs);
        cairo_set_scaled_font(buf->cairo, font);
        cairo_set_source_rgba(
            buf->cairo, background.r, background.g, background.b, background.a);
        /* Background */
        cairo_rectangle(buf->cairo, x, y, width, height);
        cairo_fill(buf->cairo);
@ -138,37 +172,75 @@ grid_render_update(struct context *c, struct buffer *buf, const struct damage *d
        if (cell->attrs.conceal)
            continue;
-        cairo_glyph_t *glyphs = NULL;
+        /*
-        int num_glyphs = 0;
+         * cairo_show_glyphs() apparently works *much* faster when
         * called once with a large array of glyphs, compared to
         * multiple calls with a single glyph.
         *
         * So, collect glyphs until cell attributes change, then we
         * 'flush' (render) the glyphs.
         */
-        cairo_status_t status = cairo_scaled_font_text_to_glyphs(
+        if (memcmp(&cell->attrs, &gseq.attrs, sizeof(cell->attrs)) != 0 ||
-            font, x, y + c->fextents.ascent,
+            gseq.count >= sizeof(gseq.glyphs) / sizeof(gseq.glyphs[0]) - 10 ||
-            cell->c, strlen(cell->c), &glyphs, &num_glyphs,
+            memcmp(&gseq.foreground, &foreground, sizeof(foreground)) != 0)
-            NULL, NULL, NULL);
+        {
            if (gseq.count >= sizeof(gseq.glyphs) / sizeof(gseq.glyphs[0]) - 10)
                LOG_WARN("hit glyph limit");
            cairo_set_scaled_font(buf->cairo, attrs_to_font(c, &gseq.attrs));
            cairo_set_source_rgba(
                buf->cairo, gseq.foreground.r, gseq.foreground.g,
                gseq.foreground.b, gseq.foreground.a);
-        if (status != CAIRO_STATUS_SUCCESS) {
+            cairo_set_operator(buf->cairo, CAIRO_OPERATOR_OVER);
-            if (glyphs != NULL)
+            cairo_show_glyphs(buf->cairo, gseq.glyphs, gseq.count);
-                cairo_glyph_free(glyphs);
+
-            continue;
+            gseq.g = gseq.glyphs;
            gseq.count = 0;
            gseq.attrs = cell->attrs;
            gseq.foreground = foreground;
        }
        int new_glyphs
            = sizeof(gseq.glyphs) / sizeof(gseq.glyphs[0]) - gseq.count;
        cairo_status_t status = cairo_scaled_font_text_to_glyphs(
            attrs_to_font(c, &cell->attrs), x, y + c->fextents.ascent,
            cell->c, strlen(cell->c), &gseq.g, &new_glyphs,
            NULL, NULL, NULL);
        if (status != CAIRO_STATUS_SUCCESS)
            continue;
        gseq.g += new_glyphs;
        gseq.count += new_glyphs;
        assert(gseq.count <= sizeof(gseq.glyphs) / sizeof(gseq.glyphs[0]));
    }
    if (gseq.count > 0) {
        cairo_set_scaled_font(buf->cairo, attrs_to_font(c, &gseq.attrs));
        cairo_set_source_rgba(
-            buf->cairo, foreground.r, foreground.g, foreground.b, foreground.a);
+            buf->cairo, gseq.foreground.r, gseq.foreground.g,
-        cairo_show_glyphs(buf->cairo, glyphs, num_glyphs);
+            gseq.foreground.b, gseq.foreground.a);
-        cairo_glyph_free(glyphs);
+        cairo_set_operator(buf->cairo, CAIRO_OPERATOR_OVER);
        cairo_show_glyphs(buf->cairo, gseq.glyphs, gseq.count);
    }
    wl_surface_damage_buffer(
        c->wl.surface,
-        0, (dmg->range.start / cols) * c->term.cell_height,
+        0, ((dmg->range.start - c->term.grid->offset) / cols) * c->term.cell_height,
        buf->width, (dmg->range.length + cols - 1) / cols * c->term.cell_height);
 }
 static void
 grid_render_erase(struct context *c, struct buffer *buf, const struct damage *dmg)
 {
-    LOG_DBG("damage: ERASE: %d -> %d",
+    LOG_DBG("damage: ERASE: %d -> %d (offset = %d)",
-            dmg->range.start, dmg->range.start + dmg->range.length);
+            (dmg->range.start - c->term.grid->offset) % c->term.grid->size,
            (dmg->range.start - c->term.grid->offset) % c->term.grid->size + dmg->range.length,
            c->term.grid->offset);
    assert(dmg->range.start >= c->term.grid->offset);
    cairo_set_source_rgba(
        buf->cairo, default_background.r, default_background.g,
@ -176,7 +248,7 @@ grid_render_erase(struct context *c, struct buffer *buf, const struct damage *dm
    const int cols = c->term.cols;
-    int start = dmg->range.start;
+    int start = (dmg->range.start - c->term.grid->offset) % c->term.grid->size;
    int left = dmg->range.length;
    int row = start / cols;
@ -238,17 +310,6 @@ grid_render_erase(struct context *c, struct buffer *buf, const struct damage *dm
        cairo_fill(buf->cairo);
        wl_surface_damage_buffer(c->wl.surface, x, y, width, height);
    }
    /* Redraw cursor, if it's inside the erased range */
    if (c->term.cursor.linear >= dmg->range.start &&
        c->term.cursor.linear < dmg->range.start + dmg->range.length)
    {
        grid_render_update(
            c, buf,
            &(struct damage){
                .type = DAMAGE_UPDATE,
                .range = {.start = c->term.cursor.linear, .length = 1}});
    }
 }
 static void
@ -284,7 +345,7 @@ grid_render_scroll(struct context *c, struct buffer *buf,
    struct damage erase = {
        .type = DAMAGE_ERASE,
        .range = {
-            .start = max(dmg->scroll.region.end - dmg->scroll.lines,
+            .start = c->term.grid->offset + max(dmg->scroll.region.end - dmg->scroll.lines,
                         dmg->scroll.region.start) * cols,
            .length = min(dmg->scroll.region.end - dmg->scroll.region.start,
                          dmg->scroll.lines) * cols,
@ -326,7 +387,7 @@ grid_render_scroll_reverse(struct context *c, struct buffer *buf,
    struct damage erase = {
        .type = DAMAGE_ERASE,
        .range = {
-            .start = dmg->scroll.region.start * cols,
+            .start = c->term.grid->offset + dmg->scroll.region.start * cols,
            .length = min(dmg->scroll.region.end - dmg->scroll.region.start,
                          dmg->scroll.lines) * cols,
        },
@ -337,8 +398,11 @@ grid_render_scroll_reverse(struct context *c, struct buffer *buf,
 static void
 grid_render(struct context *c)
 {
    static int last_cursor;
    if (tll_length(c->term.grid->damage) == 0 &&
-        tll_length(c->term.grid->scroll_damage) == 0)
+        tll_length(c->term.grid->scroll_damage) == 0 &&
        last_cursor == c->term.grid->offset + c->term.cursor.linear)
    {
        return;
    }
@ -347,9 +411,15 @@ grid_render(struct context *c)
    assert(c->height > 0);
    struct buffer *buf = shm_get_buffer(c->wl.shm, c->width, c->height);
    cairo_set_operator(buf->cairo, CAIRO_OPERATOR_SOURCE);
    static struct buffer *last_buf = NULL;
    if (last_buf != buf) {
        if (last_buf != NULL)
            LOG_WARN("new buffer");
        last_buf = buf;
    }
    tll_foreach(c->term.grid->scroll_damage, it) {
        switch (it->item.type) {
        case DAMAGE_SCROLL:
@ -383,6 +453,28 @@ grid_render(struct context *c)
        tll_remove(c->term.grid->damage, it);
    }
    /* TODO: break out to function */
    /* Re-render last cursor cell and current cursor cell */
    /* Make sure previous cursor is refreshed (to avoid "ghost" cursors) */
    if (last_cursor != c->term.cursor.linear) {
        struct damage prev_cursor = {
            .type = DAMAGE_UPDATE,
            .range = {.start = last_cursor, .length = 1},
        };
        grid_render_update(c, buf, &prev_cursor);
    }
    struct damage cursor = {
        .type = DAMAGE_UPDATE,
        .range = {.start = c->term.grid->offset + c->term.cursor.linear, .length = 1},
    };
    grid_render_update(c, buf, &cursor);
    last_cursor = c->term.grid->offset + c->term.cursor.linear;
    c->term.grid->offset %= c->term.grid->size;
    if (c->term.grid->offset < 0)
        c->term.grid->offset += c->term.grid->size;
    //cairo_surface_flush(buf->cairo_surface);
    wl_surface_attach(c->wl.surface, buf->wl_buf, 0, 0);
@ -416,8 +508,6 @@ resize(struct context *c, int width, int height)
    const size_t normal_old_size = c->term.normal.size;
    const size_t alt_old_size = c->term.alt.size;
    c->term.cell_width = (int)ceil(c->fextents.max_x_advance);
    c->term.cell_height = (int)ceil(c->fextents.height);
    c->term.cols = c->width / c->term.cell_width;
    c->term.rows = c->height / c->term.cell_height;
@ -426,10 +516,10 @@ resize(struct context *c, int width, int height)
    c->term.normal.cells = realloc(
        c->term.normal.cells,
-        c->term.cols * c->term.rows * sizeof(c->term.normal.cells[0]));
+        c->term.normal.size * sizeof(c->term.normal.cells[0]));
    c->term.alt.cells = realloc(
        c->term.alt.cells,
-        c->term.cols * c->term.rows * sizeof(c->term.alt.cells[0]));
+        c->term.alt.size * sizeof(c->term.alt.cells[0]));
    for (size_t i = normal_old_size; i < c->term.normal.size; i++) {
        c->term.normal.cells[i] = (struct cell){
@ -445,13 +535,13 @@ resize(struct context *c, int width, int height)
        };
    }
-    LOG_DBG("resize: %dx%d, grid: cols=%d, rows=%d",
+    LOG_INFO("resize: %dx%d, grid: cols=%d, rows=%d",
-            c->width, c->height, c->term.cols, c->term.rows);
+             c->width, c->height, c->term.cols, c->term.rows);
    /* Update environment variables */
    char cols_s[12], rows_s[12];
-    sprintf(cols_s, "%u", c->term.cols);
+    sprintf(cols_s, "%d", c->term.cols);
-    sprintf(rows_s, "%u", c->term.rows);
+    sprintf(rows_s, "%d", c->term.rows);
    setenv("COLUMNS", cols_s, 1);
    setenv("LINES", rows_s, 1);
@ -469,6 +559,11 @@ resize(struct context *c, int width, int height)
    if (c->term.scroll_region.end == old_rows)
        c->term.scroll_region.end = c->term.rows;
    term_cursor_to(
        &c->term,
        min(c->term.cursor.row, c->term.rows),
        min(c->term.cursor.col, c->term.cols));
    term_damage_all(&c->term);
    if (!c->frame_is_scheduled)
@ -721,10 +816,40 @@ keyboard_repeater(void *arg)
 }
 int
-main(int argc, const char *const *argv)
+main(int argc, char *const *argv)
 {
    int ret = EXIT_FAILURE;
    static const struct option longopts[] =  {
        {"font", required_argument, 0, 'f'},
        {NULL,   no_argument,       0,   0},
    };
    const char *font_name = "Dina:pixelsize=12";
    while (true) {
        int c = getopt_long(argc, argv, ":f:h", longopts, NULL);
        if (c == -1)
            break;
        switch (c) {
        case 'f':
            font_name = optarg;
            break;
        case 'h':
            break;
        case ':':
            fprintf(stderr, "error: -%c: missing required argument\n", optopt);
            return EXIT_FAILURE;
        case '?':
            fprintf(stderr, "error: -%c: invalid option\n", optopt);
            return EXIT_FAILURE;
        }
    }
    setlocale(LC_ALL, "");
    int repeat_pipe_fds[2] = {-1, -1};
@ -739,6 +864,7 @@ main(int argc, const char *const *argv)
            .ptmx = posix_openpt(O_RDWR | O_NOCTTY),
            .decckm = DECCKM_CSI,
            .keypad_mode = KEYPAD_NUMERICAL,  /* TODO: verify */
            .auto_margin = true,
            .vt = {
                .state = 1,  /* STATE_GROUND */
            },
@ -764,7 +890,6 @@ main(int argc, const char *const *argv)
    thrd_t keyboard_repeater_id;
    thrd_create(&keyboard_repeater_id, &keyboard_repeater, &c.term);
    const char *font_name = "Dina:pixelsize=12";
    c.fonts[0] = font_from_name(font_name);
    if (c.fonts[0] == NULL)
        goto out;
@ -779,11 +904,11 @@ main(int argc, const char *const *argv)
        snprintf(fname, sizeof(fname), "%s:style=bold italic", font_name);
        c.fonts[3] = font_from_name(fname);
        /* TODO; underline */
    }
    cairo_scaled_font_extents(c.fonts[0],  &c.fextents);
    c.term.cell_width = (int)ceil(c.fextents.max_x_advance);
    c.term.cell_height = (int)ceil(c.fextents.height);
    LOG_DBG("font: height: %.2f, x-advance: %.2f",
            c.fextents.height, c.fextents.max_x_advance);
@ -864,6 +989,20 @@ main(int argc, const char *const *argv)
        break;
    }
    /* Read logic requires non-blocking mode */
    {
        int fd_flags = fcntl(c.term.ptmx, F_GETFL);
        if (fd_flags == -1) {
            LOG_ERRNO("failed to set non blocking mode on PTY master");
            goto out;
        }
        if (fcntl(c.term.ptmx, F_SETFL, fd_flags | O_NONBLOCK) == -1) {
            LOG_ERRNO("failed to set non blocking mode on PTY master");
            goto out;
        }
    }
    while (true) {
        struct pollfd fds[] = {
            {.fd = wl_display_get_fd(c.wl.display), .events = POLLIN},
@ -888,16 +1027,18 @@ main(int argc, const char *const *argv)
        }
        if (fds[1].revents & POLLIN) {
-            uint8_t data[8192];
+            for (size_t i = 0; i < 3; i++) {
-            ssize_t count = read(c.term.ptmx, data, sizeof(data));
+                uint8_t data[8192];
-            if (count < 0) {
+                ssize_t count = read(c.term.ptmx, data, sizeof(data));
-                LOG_ERRNO("failed to read from pseudo terminal");
+                if (count < 0) {
-                break;
+                    if (errno != EAGAIN)
                        LOG_ERRNO("failed to read from pseudo terminal");
                    break;
                }
                vt_from_slave(&c.term, data, count);
            }
            //LOG_DBG("%.*s", (int)count, data);
            vt_from_slave(&c.term, data, count);
            if (!c.frame_is_scheduled)
                grid_render(&c);
        }
--- a/osc.c
+++ b/osc.c
@ -1,7 +1,7 @@
 #include "osc.h"
 #define LOG_MODULE "osc"
-#define LOG_ENABLE_DBG 1
+#define LOG_ENABLE_DBG 0
 #include "log.h"
 bool
--- a/slave.c
+++ b/slave.c
@ -9,7 +9,7 @@
 #include <fcntl.h>
 #define LOG_MODULE "slave"
-#define LOG_ENABLE_DBG 1
+#define LOG_ENABLE_DBG 0
 #include "log.h"
 void
--- a/terminal.c
+++ b/terminal.c
@ -4,8 +4,9 @@
 #include <assert.h>
 #define LOG_MODULE "terminal"
-#define LOG_ENABLE_DBG 1
+#define LOG_ENABLE_DBG 0
 #include "log.h"
 #include "grid.h"
 #define min(x, y) ((x) < (y) ? (x) : (y))
 #define max(x, y) ((x) > (y) ? (x) : (y))
@ -37,10 +38,6 @@ damage_merge_range(struct terminal *term, const struct damage *dmg)
        old->range.start = new_start;
        old->range.length = new_end - new_start;
        assert(old->range.start >= 0);
        assert(old->range.start < term->rows * term->cols);
        assert(old->range.length >= 0);
        assert(old->range.start + old->range.length <= term->rows * term->cols);
        return true;
    }
@ -51,16 +48,18 @@ static void
 term_damage_update_or_erase(struct terminal *term, enum damage_type damage_type,
                            int start, int length)
 {
 #if 1
    if (tll_length(term->grid->damage) > 1024) {
        term_damage_all(term);
        return;
    }
 #endif
    struct damage dmg = {
        .type = damage_type,
-        .range = {.start = start, .length = length},
+        .range = {.start = term->grid->offset + start, .length = length},
    };
    assert(dmg.range.start >= 0);
    assert(dmg.range.start < term->rows * term->cols);
    assert(dmg.range.length >= 0);
    assert(dmg.range.start + dmg.range.length <= term->rows * term->cols);
    if (damage_merge_range(term, &dmg))
        return;
@ -70,12 +69,14 @@ term_damage_update_or_erase(struct terminal *term, enum damage_type damage_type,
 void
 term_damage_update(struct terminal *term, int start, int length)
 {
    assert(start + length <= term->rows * term->cols);
    term_damage_update_or_erase(term, DAMAGE_UPDATE, start, length);
 }
 void
 term_damage_erase(struct terminal *term, int start, int length)
 {
    assert(start + length <= term->rows * term->cols);
    term_damage_update_or_erase(term, DAMAGE_ERASE, start, length);
 }
@ -87,82 +88,53 @@ term_damage_all(struct terminal *term)
    term_damage_update(term, 0, term->rows * term->cols);
 }
 #if 0
 static void
 damage_adjust_after_scroll(struct terminal *term, enum damage_type damage_type,
                           struct scroll_region region, int lines)
 {
    const int adjustment
        = lines * term->cols * (damage_type == DAMAGE_SCROLL_REVERSE ? -1 : 1);
    const int scroll_start = region.start * term->cols;
    const int scroll_end = region.end * term->cols;
    tll_foreach(term->grid->damage, it) {
 #if 0
        if (it->item.range.start < term->grid->offset) {
            int end = it->item.range.start + it->item.range.length;
            if (end >= term->grid->offset) {
                it->item.range.start = term->grid->offset;
                it->item.range.length = end - it->item.range.start;
            } else {
                tll_remove(term->grid->damage, it);
            }
        }
 #endif
        int start = it->item.range.start;
-        int length = it->item.range.length;
+        int end = start + it->item.range.length;
        int end = start + length;
-        if (start < scroll_start && end > scroll_start) {
+        if (start - 
            /* Start outside, end either inside or on the other side */
            struct damage outside = {
                .type = it->item.type,
                .range = {.start = start, .length = scroll_start - start},
            };
            tll_push_back(term->grid->damage, outside);
            start = scroll_start;
            length = end - start;
        }
        if (start < scroll_end && end > scroll_end) {
            /* End outside, start either inside or on the other side */
            struct damage outside = {
                .type = it->item.type,
                .range = {.start = scroll_end, .length = length - scroll_end},
            };
            tll_push_back(term->grid->damage, outside);
            end = scroll_end;
            length = end - start;
        }
        if (start >= scroll_start && end <= scroll_end) {
            /* Completely inside scroll region */
            start -= adjustment;
            it->item.range.start = start;
            if (start < scroll_start) {
                /* Scrolled up outside scroll region */
                int new_length = length - (scroll_start - start);
                assert(new_length < length);
                if (new_length <= 0)
                    tll_remove(term->grid->damage, it);
                else {
                    it->item.range.start = scroll_start;
                    it->item.range.length = new_length;
                }
            }
            if (start + length > scroll_end) {
                /* Scrolled down outside scroll region */
                if (start >= scroll_end)
                    tll_remove(term->grid->damage, it);
                else {
                    it->item.range.start = start;
                    it->item.range.length = scroll_end - start;
                }
            }
        }
    }
 }
 #endif
 void
 term_damage_scroll(struct terminal *term, enum damage_type damage_type,
                   struct scroll_region region, int lines)
 {
-    damage_adjust_after_scroll(term, damage_type, region, lines);
+    //damage_adjust_after_scroll(term, damage_type, region, lines);
    if (damage_type == DAMAGE_SCROLL) {
        tll_foreach(term->grid->damage, it) {
            int start = it->item.range.start;
            int length = it->item.range.length;
            if (start < term->grid->offset) {
                int end = start + length;
                if (end >= term->grid->offset) {
                    it->item.range.start = term->grid->offset;
                    it->item.range.length = end - it->item.range.start;
                } else
                    tll_remove(term->grid->damage, it);
            } else
                break;
        }
    }
    if (tll_length(term->grid->scroll_damage) > 0) {
        struct damage *dmg = &tll_back(term->grid->scroll_damage);
@ -185,8 +157,11 @@ term_damage_scroll(struct terminal *term, enum damage_type damage_type,
 void
 term_erase(struct terminal *term, int start, int end)
 {
    LOG_DBG("erase: %d-%d", start, end);
    assert(end >= start);
-    memset(&term->grid->cells[start], 0, (end - start) * sizeof(term->grid->cells[0]));
+    assert(end <= term->rows * term->cols);
    grid_memset(term->grid, start, 0, end - start);
    term_damage_erase(term, start, end - start);
 }
@ -199,36 +174,41 @@ term_cursor_linear(const struct terminal *term, int row, int col)
 void
 term_cursor_to(struct terminal *term, int row, int col)
 {
    assert(row >= 0);
    assert(row < term->rows);
    assert(col >= 0);
    assert(col < term->cols);
    int new_linear = row * term->cols + col;
    assert(new_linear >= 0);
    assert(new_linear < term->rows * term->cols);
    term_damage_update(term, term->cursor.linear, 1);
    term_damage_update(term, new_linear, 1);
    term->print_needs_wrap = false;
    term->cursor.linear = new_linear;
    term->cursor.col = col;
    term->cursor.row = row;
    int len = term->cols;
    term->grid->cur_line = grid_get_range(
        term->grid, term->cursor.linear - col, &len);
    assert(len == term->cols);
 }
 void
 term_cursor_left(struct terminal *term, int count)
 {
    int move_amount = min(term->cursor.col, count);
-    term_cursor_to(term, term->cursor.row, term->cursor.col - move_amount);
+    term->cursor.linear -= move_amount;
    term->cursor.col -= move_amount;
    term->print_needs_wrap = false;
 }
 void
 term_cursor_right(struct terminal *term, int count)
 {
    int move_amount = min(term->cols - term->cursor.col - 1, count);
-    term_cursor_to(term, term->cursor.row, term->cursor.col + move_amount);
+    term->cursor.linear += move_amount;
    term->cursor.col += move_amount;
    term->print_needs_wrap = false;
 }
 void
@ -248,27 +228,61 @@ term_cursor_down(struct terminal *term, int count)
 void
 term_scroll_partial(struct terminal *term, struct scroll_region region, int rows)
 {
-    if (rows >= region.end - region.start) {
+    LOG_DBG("scroll: %d rows", rows);
-        assert(false && "untested");
+
-        return;
+    if (region.start > 0) {
        /* TODO: check if it's worth memoving the scroll area instead,
         * under certain circumstances */
        grid_memmove(term->grid, rows * term->cols, 0, region.start * term->cols);
        tll_foreach(term->grid->damage, it) {
            int start = it->item.range.start - term->grid->offset;
            int end __attribute__((unused))  = start + it->item.range.length;
            if (start < region.start * term->cols) {
                assert(end <= region.start * term->cols);
                it->item.range.start += rows * term->cols;
            }
        }
    }
-    int cell_dst = (region.start + 0) * term->cols;
+    if (region.end < term->rows) {
-    int cell_src = (region.start + rows) * term->cols;
+        /* Copy scrolled-up bottom region to new bottom region */
-    int cell_count = (region.end - region.start - rows) * term->cols;
+        grid_memmove(
            term->grid,
            (region.end + rows) * term->cols,
            region.end * term->cols,
            (term->rows - region.end) * term->cols);
-    LOG_DBG("moving %d lines from row %d to row %d", cell_count / term->cols,
+        tll_foreach(term->grid->damage, it) {
-            cell_src / term->cols, cell_dst / term->cols);
+            int start = it->item.range.start - term->grid->offset;
            int end = start + it->item.range.length;
-    const size_t bytes = cell_count * sizeof(term->grid->cells[0]);
+            if (end > region.end * term->cols) {
-    memmove(
+                assert(start >= region.end * term->cols);
-        &term->grid->cells[cell_dst], &term->grid->cells[cell_src],
+                it->item.range.start += rows * term->cols;
-        bytes);
+            }
        }
    }
-    memset(&term->grid->cells[(region.end - rows) * term->cols], 0,
+    /* Offset grid origin */
-           rows * term->cols * sizeof(term->grid->cells[0]));
+    term->grid->offset += rows * term->cols;
    /* Clear scrolled-in lines */
    grid_memset(
        term->grid,
        max(0, region.end - rows) * term->cols,
        0,
        min(rows, term->rows) * term->cols);
    term_damage_scroll(term, DAMAGE_SCROLL, region, rows);
    int len = term->cols;
    term->grid->cur_line = grid_get_range(
        term->grid, term->cursor.linear - term->cursor.col, &len);
    assert(len == term->cols);
 }
 void
@ -281,27 +295,56 @@ void
 term_scroll_reverse_partial(struct terminal *term,
                            struct scroll_region region, int rows)
 {
-    if (rows >= region.end - region.start) {
+    if (region.end < term->rows) {
-        assert(false && "todo");
+        grid_memmove(
-        return;
+            term->grid,
            (region.end - rows) * term->cols,
            region.end * term->cols,
            (term->rows - region.end) * term->cols);
        tll_foreach(term->grid->damage, it) {
            int start = it->item.range.start - term->grid->offset;
            int end = start + it->item.range.length;
            if (end > region.end * term->cols) {
                assert(start >= region.end * term->cols);
                it->item.range.start -= rows * term->cols;
            }
        }
    }
-    int cell_dst = (region.start + rows) * term->cols;
+    if (region.start > 0) {
-    int cell_src = (region.start + 0) * term->cols;
+        grid_memmove(
-    int cell_count = (region.end - region.start - rows) * term->cols;
+            term->grid, -rows * term->cols, 0, region.start * term->cols);
-    LOG_DBG("moving %d lines from row %d to row %d", cell_count / term->cols,
+        tll_foreach(term->grid->damage, it) {
-            cell_src / term->cols, cell_dst / term->cols);
+            int start = it->item.range.start - term->grid->offset;
            int end __attribute__((unused))  = start + it->item.range.length;
-    const size_t bytes = cell_count * sizeof(term->grid->cells[0]);
+            if (start < region.start * term->cols) {
-    memmove(
+                if (end > region.start * term->cols) {
-        &term->grid->cells[cell_dst], &term->grid->cells[cell_src],
+                    LOG_ERR("region.start = %d, rows = %d, damage.start = %d, damage.end = %d (%s)",
-        bytes);
+                            region.start, rows, start, end, it->item.type == DAMAGE_UPDATE ? "UPDATE" : "ERASE");
                    abort();
                }
                assert(end <= region.start * term->cols);
                it->item.range.start -= rows * term->cols;
            }
        }
    }
-    memset(&term->grid->cells[cell_src], 0,
+    term->grid->offset -= rows * term->cols;
-           rows * term->cols * sizeof(term->grid->cells[0]));
+
    grid_memset(term->grid, region.start * term->cols, 0, rows * term->cols);
    term_damage_scroll(term, DAMAGE_SCROLL_REVERSE, region, rows);
    int len = term->cols;
    term->grid->cur_line = grid_get_range(
        term->grid, term->cursor.linear - term->cursor.col, &len);
    assert(len == term->cols);
 }
 void
--- a/terminal.h
+++ b/terminal.h
@ -62,10 +62,11 @@ struct damage {
 };
 struct grid {
-    size_t size;
+    int size;
-    size_t offset;
+    int offset;
    struct cell *cells;
    struct cell *cur_line;
    tll(struct damage) damage;
    tll(struct damage) scroll_damage;
@ -73,7 +74,7 @@ struct grid {
 struct vt_subparams {
    unsigned value[16];
-    size_t idx;
+    int idx;
 };
 struct vt_param {
@ -85,20 +86,20 @@ struct vt {
    int state;  /* enum state */
    struct {
        struct vt_param v[16];
-        size_t idx;
+        int idx;
    } params;
    struct {
        uint8_t data[2];
-        size_t idx;
+        int idx;
    } intermediates;
    struct {
        uint8_t data[1024];
-        size_t idx;
+        int idx;
    } osc;
    struct {
        uint8_t data[4];
-        size_t idx;
+        int idx;
-        size_t left;
+        int left;
    } utf8;
    struct attributes attrs;
    bool dim;
@ -132,6 +133,9 @@ struct terminal {
    enum decckm decckm;
    enum keypad_mode keypad_mode;
    bool hide_cursor;
    bool auto_margin;
    bool insert_mode;
    bool bracketed_paste;
    struct vt vt;
--- a/vt.c
+++ b/vt.c
@ -5,7 +5,7 @@
 #include <assert.h>
 #define LOG_MODULE "vt"
-#define LOG_ENABLE_DBG 1
+#define LOG_ENABLE_DBG 0
 #include "log.h"
 #include "csi.h"
 #include "osc.h"
@ -555,7 +555,7 @@ static const enum action exit_actions[] = {
 static bool
 esc_dispatch(struct terminal *term, uint8_t final)
 {
-#if defined(_DEBUG) && defined(LOG_ENABLE_DBG) && LOG_ENABLED_DBG
+#if defined(_DEBUG) && defined(LOG_ENABLE_DBG) && LOG_ENABLE_DBG
    char log[1024];
    int c = snprintf(log, sizeof(log), "ESC: ");
@ -568,6 +568,7 @@ esc_dispatch(struct terminal *term, uint8_t final)
    switch (final) {
    case 'B': {
        /* Configure G0-G3 to use ASCII */
        char param = term->vt.params.idx > 0 ? term->vt.params.v[0].value : '(';
        switch (param) {
@ -578,11 +579,30 @@ esc_dispatch(struct terminal *term, uint8_t final)
        case ')':
        case '*':
        case '+':
-            LOG_ERR("unimplemented: character charset: %c", param);
+            LOG_WARN("unimplemented: charset %c uses ASCII", param);
            return false;
        default:
-            LOG_ERR("ESC <id> B: invalid charset identifier: %c", param);
+            LOG_ERR("<ESC>%cB: invalid charset identifier", param);
            return false;
        }
        break;
    }
    case '0': {
        /* Configure G0-G3 to use special chars + line drawing */
        char param = term->vt.params.idx > 0 ? term->vt.params.v[0].value : '(';
        switch (param) {
        case '(':
        case ')':
        case '*':
        case '+':
            LOG_WARN("unimplemented: charset %c uses special characters and line drawings", param);
            break;
        default:
            LOG_ERR("<ESC>%c0: invalid charset identifier", param);
            return false;
        }
        break;
@ -664,13 +684,13 @@ action(struct terminal *term, enum action action, uint8_t c)
    case ACTION_CLEAR:
        memset(&term->vt.params, 0, sizeof(term->vt.params));
-        memset(&term->vt.intermediates, 0, sizeof(term->vt.intermediates));
+        term->vt.intermediates.idx = 0;
-        memset(&term->vt.osc, 0, sizeof(term->vt.osc));
+        term->vt.osc.idx = 0;
-        memset(&term->vt.utf8, 0, sizeof(term->vt.utf8));
+        term->vt.utf8.idx = 0;
        break;
    case ACTION_PRINT: {
-        if (term->print_needs_wrap) {
+        if (term->auto_margin && term->print_needs_wrap) {
            if (term->cursor.row == term->scroll_region.end - 1) {
                term_scroll(term, 1);
                term_cursor_to(term, term->cursor.row, 0);
@ -678,14 +698,22 @@ action(struct terminal *term, enum action action, uint8_t c)
                term_cursor_to(term, term->cursor.row + 1, 0);
        }
-        struct cell *cell = &term->grid->cells[term->cursor.linear];
+        struct cell *cell = &term->grid->cur_line[term->cursor.col];
        term_damage_update(term, term->cursor.linear, 1);
        if (term->insert_mode) {
            assert(false && "untested");
            grid_memmove(
                term->grid, term->cursor.linear + 1, term->cursor.linear,
                term->cols - term->cursor.col - 1);
            term_damage_update(
                term, term->cursor.linear + 1, term->cols - term->cursor.col - 1);
        }
        if (term->vt.utf8.idx > 0) {
            //LOG_DBG("print: UTF8: %.*s", (int)term->vt.utf8.idx, term->vt.utf8.data);
            memcpy(cell->c, term->vt.utf8.data, term->vt.utf8.idx);
            cell->c[term->vt.utf8.idx] = '\0';
            memset(&term->vt.utf8, 0, sizeof(term->vt.utf8));
        } else {
            //LOG_DBG("print: ASCII: %c", c);
            cell->c[0] = c;