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-rw-r--r--src/vcr.c246
-rw-r--r--src/vcr.h9
2 files changed, 161 insertions, 94 deletions
diff --git a/src/vcr.c b/src/vcr.c
index 41b4f0d..eb86f88 100644
--- a/src/vcr.c
+++ b/src/vcr.c
@@ -145,8 +145,9 @@ typedef struct vcr_t {
} xlib;
#endif /* USE_XLIB */
struct {
- uint8_t *bits; /* width * height bytes are used to represent the coverage status of up to 8 layers */
- uint8_t *tmp; /* width * VCR_ROW_HEIGHT bytes for a row's worth of temporary storage */
+ uint8_t *bits; /* .pitch * height bytes are used to represent the coverage status of up to 8 layers */
+ uint8_t *tmp; /* .pitch * VCR_ROW_HEIGHT bytes for a row's worth of temporary storage */
+ int pitch; /* "pitch" of mem surface in bytes, which is half the width rounded up to an even number divisible by two. */
} mem;
};
} vcr_t;
@@ -509,6 +510,7 @@ vcr_backend_t * vcr_backend_free(vcr_backend_t *vbe)
#endif /* USE_XLIB */
case VCR_BACKEND_TYPE_MEM:
break;
+
default:
assert(0);
}
@@ -863,39 +865,32 @@ int vcr_resize_visible(vcr_t *vcr, int width, int height)
}
#endif /* USE_XLIB */
- case VCR_BACKEND_TYPE_MEM:
+ case VCR_BACKEND_TYPE_MEM: {
+ int pitch = (width + 1) >> 1;
+
/* no attempt to preserve the existing contents is done for the mem backend,
* as it's intended for a non-interactive headless use case - there is no
* resizing @ runtime. We get entered once to create the initial dimensions,
* then never recurs.
*/
assert(!vcr->mem.bits); /* since we're assuming this doesn't recur, assert it */
- vcr->mem.bits = calloc(width * height, sizeof(uint8_t));
+ vcr->mem.bits = calloc(pitch * height, sizeof(uint8_t));
if (!vcr->mem.bits)
return -ENOMEM;
assert(!vcr->mem.tmp); /* since we're assuming this doesn't recur, assert it */
- vcr->mem.tmp = calloc(width * VCR_ROW_HEIGHT, sizeof(uint8_t));
+ vcr->mem.tmp = calloc(pitch * VCR_ROW_HEIGHT, sizeof(uint8_t));
if (!vcr->mem.tmp) {
free(vcr->mem.bits);
return -ENOMEM;
}
- { /* populate the background layer up front */
- uint8_t bg = (0x1 << VCR_LAYER_BG);
-
- for (int i = VCR_ROW_HEIGHT - 1; i < height; i += VCR_ROW_HEIGHT) {
- uint8_t *p = &vcr->mem.bits[i * width];
-
- for (int j = 0; j < width; j++, p++)
- *p = bg;
- }
- }
-
+ vcr->mem.pitch = pitch;
vcr->width = width;
vcr->height = height;
break;
+ }
default:
assert(0);
@@ -979,7 +974,6 @@ void vcr_draw_text(vcr_t *vcr, vcr_layer_t layer, int x, int row, const vcr_str_
#endif /* USE_XLIB */
case VCR_BACKEND_TYPE_MEM: {
-
if (row >= 0 && row * VCR_ROW_HEIGHT < vcr->height) {
int y = row * VCR_ROW_HEIGHT + 3;
uint8_t mask = (0x1 << layer);
@@ -1006,12 +1000,14 @@ void vcr_draw_text(vcr_t *vcr, vcr_layer_t layer, int x, int row, const vcr_str_
for (int k = 0; k < ASCII_HEIGHT; k++) {
for (int l = 0; l < ASCII_WIDTH; l++) {
- uint8_t *p = &vcr->mem.bits[(y + k) * vcr->width + x + l];
+ int x_l = x + l;
+ uint8_t *p = &vcr->mem.bits[(y + k) * vcr->mem.pitch + (x_l >> 1)];
+
/* FIXME this can all be done more efficiently */
- if (x + l < 0)
+ if (x_l < 0)
continue;
- *p = (*p & ~mask) | (mask * ascii_chars[c][k * ASCII_WIDTH + l]);
+ *p = (*p & ~(mask << ((x_l & 0x1) << 2))) | ((mask * ascii_chars[c][k * ASCII_WIDTH + l]) << ((x_l & 0x1) << 2));
}
}
@@ -1078,6 +1074,8 @@ void vcr_draw_ortho_line(vcr_t *vcr, vcr_layer_t layer, int x1, int y1, int x2,
case VCR_BACKEND_TYPE_MEM: {
if (x1 == x2) {
+ unsigned which = (x1 & 0x1) << 2;
+
if (y1 > y2) {
int t = y1;
@@ -1086,8 +1084,8 @@ void vcr_draw_ortho_line(vcr_t *vcr, vcr_layer_t layer, int x1, int y1, int x2,
}
/* vertical */
- for (uint8_t *p = &vcr->mem.bits[y1 * vcr->width + x1]; y1 <= y2; p += vcr->width, y1++)
- *p |= (0x1 << layer);
+ for (uint8_t *p = &vcr->mem.bits[y1 * vcr->mem.pitch + (x1 >> 1)]; y1 <= y2; p += vcr->mem.pitch, y1++)
+ *p |= (0x1 << layer) << which;
} else {
/* horizontal */
@@ -1099,8 +1097,12 @@ void vcr_draw_ortho_line(vcr_t *vcr, vcr_layer_t layer, int x1, int y1, int x2,
x2 = t;
}
- for (uint8_t *p = &vcr->mem.bits[y1 * vcr->width + x1]; x1 <= x2; p++, x1++)
- *p |= (0x1 << layer);
+ for (; x1 <= x2; x1++) {
+ uint8_t *p = &vcr->mem.bits[y1 * vcr->mem.pitch + (x1 >> 1)];
+ unsigned which = (x1 & 0x1) << 2;
+
+ *p |= (0x1 << layer) << which;
+ }
}
break;
@@ -1152,11 +1154,11 @@ void vcr_mark_finish_line(vcr_t *vcr, vcr_layer_t layer, int row)
#endif /* USE_XLIB */
case VCR_BACKEND_TYPE_MEM: {
- uint8_t mask = (0x1 << layer);
+ uint8_t mask = (0x1 << layer) << ((vcr->phase & 0x1) << 2);
uint8_t *p;
- p = &vcr->mem.bits[row * VCR_ROW_HEIGHT * vcr->width + vcr->phase];
- for (int i = 0; i < VCR_ROW_HEIGHT; i++, p += vcr->width)
+ p = &vcr->mem.bits[row * VCR_ROW_HEIGHT * vcr->mem.pitch + (vcr->phase >> 1)];
+ for (int i = 0; i < VCR_ROW_HEIGHT; i++, p += vcr->mem.pitch)
*p = ((*p & ~mask) | (mask * (i & 0x1)));
break;
@@ -1218,14 +1220,15 @@ void vcr_draw_bar(vcr_t *vcr, vcr_layer_t layer, int row, double t, int min_heig
#endif /* USE_XLIB */
case VCR_BACKEND_TYPE_MEM: {
+ uint8_t mask = (0x1 << layer) << ((vcr->phase & 0x1) << 2);
uint8_t *p;
if (layer == VCR_LAYER_GRAPHB)
y += VCR_ROW_HEIGHT - height - 1;
- p = &vcr->mem.bits[y * vcr->width + vcr->phase];
- for (int i = 0; i < height; i++, p += vcr->width)
- *p |= (0x1 << layer);
+ p = &vcr->mem.bits[y * vcr->mem.pitch + (vcr->phase >> 1)];
+ for (int i = 0; i < height; i++, p += vcr->mem.pitch)
+ *p |= mask;
break;
}
@@ -1248,6 +1251,9 @@ void vcr_clear_row(vcr_t *vcr, vcr_layer_t layer, int row, int x, int width)
if (x < 0)
x = 0;
+ if (x > vcr->width)
+ x = vcr->width;
+
if (width < 0)
width = vcr->width;
@@ -1278,14 +1284,32 @@ void vcr_clear_row(vcr_t *vcr, vcr_layer_t layer, int row, int x, int width)
#endif /* USE_XLIB */
case VCR_BACKEND_TYPE_MEM: {
- uint8_t mask = ~((uint8_t)(0x1 << layer));
+ uint8_t mask = ((uint8_t)(0x1 << layer));
/* naive but correct for now - TODO: optimize */
for (int i = 0; i < VCR_ROW_HEIGHT; i++) {
- uint8_t *p = &vcr->mem.bits[(row * VCR_ROW_HEIGHT + i) * vcr->width + x];
+ uint8_t *p = &vcr->mem.bits[(row * VCR_ROW_HEIGHT + i) * vcr->mem.pitch + (x >> 1)];
- for (int j = 0; j < width; j++, p++)
- *p &= mask;
+ if (width >= 2) {
+ int W = ((width >> 1) << 1);
+
+ for (int j = 0; j < W; j++, p++) {
+ unsigned which = ((x + j) & 0x1) << 2;
+
+ *p &= ~(mask << which);
+
+ j++;
+
+ which = ((x + j) & 0x1) << 2;
+ *p &= ~(mask << which);
+ }
+ }
+
+ if (width & 0x1) {
+ unsigned which = ((x + 1) & 0x1) << 2;
+
+ *p &= ~(mask << which);
+ }
}
break;
}
@@ -1336,9 +1360,9 @@ void vcr_shift_below_row_up_one(vcr_t *vcr, int row)
#endif /* USE_XLIB */
case VCR_BACKEND_TYPE_MEM: {
- uint8_t *dest = &vcr->mem.bits[row * VCR_ROW_HEIGHT * vcr->width];
- uint8_t *src = &vcr->mem.bits[(1 + row) * VCR_ROW_HEIGHT * vcr->width];
- size_t len = ((1 + *(vcr->hierarchy_end_ptr)) - (1 + row)) * VCR_ROW_HEIGHT * vcr->width;
+ uint8_t *dest = &vcr->mem.bits[row * VCR_ROW_HEIGHT * vcr->mem.pitch];
+ uint8_t *src = &vcr->mem.bits[(1 + row) * VCR_ROW_HEIGHT * vcr->mem.pitch];
+ size_t len = ((1 + *(vcr->hierarchy_end_ptr)) - (1 + row)) * VCR_ROW_HEIGHT * vcr->mem.pitch;
memmove(dest, src, len);
break;
@@ -1387,9 +1411,9 @@ void vcr_shift_below_row_down_one(vcr_t *vcr, int row)
#endif /* USE_XLIB */
case VCR_BACKEND_TYPE_MEM: {
- uint8_t *dest = &vcr->mem.bits[dest_y * vcr->width];
- uint8_t *src = &vcr->mem.bits[row * VCR_ROW_HEIGHT * vcr->width];
- size_t len = (vcr->height - dest_y) * vcr->width;
+ uint8_t *dest = &vcr->mem.bits[dest_y * vcr->mem.pitch];
+ uint8_t *src = &vcr->mem.bits[row * VCR_ROW_HEIGHT * vcr->mem.pitch];
+ size_t len = (vcr->height - dest_y) * vcr->mem.pitch;
memmove(dest, src, len);
break;
@@ -1458,16 +1482,27 @@ void vcr_shadow_row(vcr_t *vcr, vcr_layer_t layer, int row)
uint8_t shadow_mask = (0x1 << VCR_LAYER_SHADOW);
int vcr_width = vcr->width;
- /* TODO: optimize this */
+ /* TODO: optimize this abomination, maybe switch to shadowing the text @ serialization to png time for the mem->png headless scenario? */
+
/* first pass has to clean up the shadow plane while doing one offset of shadow bits */
for (int i = 1; i < VCR_ROW_HEIGHT - 1; i++) {
- uint8_t *s = &vcr->mem.bits[(row * VCR_ROW_HEIGHT + i) * vcr->width + 1];
- uint8_t *d = &vcr->mem.bits[(row * VCR_ROW_HEIGHT + i) * vcr->width + 2];
+ uint8_t *s = &vcr->mem.bits[(row * VCR_ROW_HEIGHT + i) * vcr->mem.pitch];
+ uint8_t *d = &vcr->mem.bits[(row * VCR_ROW_HEIGHT + i) * vcr->mem.pitch + 1];
+
+ for (int j = 0; j < vcr_width - 2; j++, d++) {
+ int s_shift = (((j + 1) & 0x1) << 2);
+ int d_shift = ((j & 0x1) << 2);
+ uint8_t t = ((*s & (0xf << s_shift) & (text_mask << s_shift)) << 1) >> s_shift; /* turn text bit into shadow bit by shifting over one */
- for (int j = 0; j < vcr_width - 2; j++, s++, d++) {
- uint8_t t = (*s & text_mask) << 1; /* turn text bit into shadow bit by shifting over one */
+ *d = (*d & ~(shadow_mask << d_shift)) | (t << d_shift);
- *d = (*d & ~shadow_mask) | t;
+ j++;
+ s++;
+
+ s_shift = (((j + 1) & 0x1) << 2);
+ d_shift = ((j & 0x1) << 2);
+ t = ((*s & (0xf << s_shift) & (text_mask << s_shift)) << 1) >> s_shift; /* turn text bit into shadow bit by shifting over one */
+ *d = (*d & ~(shadow_mask << d_shift)) | (t << d_shift);
}
}
@@ -1476,18 +1511,31 @@ void vcr_shadow_row(vcr_t *vcr, vcr_layer_t layer, int row)
* OR things additively.
*/
for (int i = 1; i < VCR_ROW_HEIGHT - 1; i++) {
- uint8_t *s = &vcr->mem.bits[(row * VCR_ROW_HEIGHT + i) * vcr->width + 1];
+ uint8_t *s = &vcr->mem.bits[(row * VCR_ROW_HEIGHT + i) * vcr->mem.pitch];
+ uint8_t *d = &vcr->mem.bits[(row * VCR_ROW_HEIGHT + i) * vcr->mem.pitch];
- for (int j = 0; j < vcr_width - 2; j++, s++) {
- uint8_t t = (*s & text_mask);
+ for (int j = 0; j < vcr_width - 2; j++, d++) {
+ int s_shift = (((j + 1) & 0x1) << 2);
+ int d_shift = ((j & 0x1) << 2);
+ uint8_t t = ((*s & (0xf << s_shift) & (text_mask << s_shift)) << 1) >> s_shift; /* turn text bit into shadow bit by shifting over one */
- if (t) {
- t <<= 1; /* turn text bit into shadow bit by shifting over one */
+ *d |= t << d_shift;
- *(s - vcr_width) |= t;
- *(s - 1) |= t;
- *(s + vcr_width) |= t;
- }
+ /* for above and below use *s as dest */
+ *(s - vcr->mem.pitch) |= t << s_shift;
+ *(s + vcr->mem.pitch) |= t << s_shift;
+
+ j++;
+ s++;
+
+ s_shift = (((j + 1) & 0x1) << 2);
+ d_shift = ((j & 0x1) << 2);
+ t = ((*s & (0xf << s_shift) & (text_mask << s_shift)) << 1) >> s_shift; /* turn text bit into shadow bit by shifting over one */
+ *d |= t << d_shift;
+
+ /* for above and below use *s as dest */
+ *(s - vcr->mem.pitch) |= t << s_shift;
+ *(s + vcr->mem.pitch) |= t << s_shift;
}
}
break;
@@ -1532,12 +1580,17 @@ void vcr_stash_row(vcr_t *vcr, vcr_layer_t layer, int row)
#endif /* USE_XLIB */
case VCR_BACKEND_TYPE_MEM: {
- uint8_t *src = &vcr->mem.bits[row * VCR_ROW_HEIGHT * vcr->width];
+ uint8_t *src = &vcr->mem.bits[row * VCR_ROW_HEIGHT * vcr->mem.pitch];
uint8_t *dest = &vcr->mem.tmp[0];
uint8_t mask = 0x1 << layer;
+ /* we'll do both nibbles at once since this is simply a masked, full-pitch copy of a row,
+ * which means we need to prep the mask for doing both nibbles concurrently.
+ */
+ mask |= mask << 4;
+
for (int i = 0; i < VCR_ROW_HEIGHT; i++) {
- for (int j = 0; j < vcr->width; j++, dest++, src++) {
+ for (int j = 0; j < vcr->mem.pitch; j++, dest++, src++) {
*dest = (*dest & ~mask) | (*src & mask);
}
}
@@ -1582,12 +1635,15 @@ void vcr_unstash_row(vcr_t *vcr, vcr_layer_t layer, int row)
#endif /* USE_XLIB */
case VCR_BACKEND_TYPE_MEM: {
- uint8_t *dest = &vcr->mem.bits[row * VCR_ROW_HEIGHT * vcr->width];
+ uint8_t *dest = &vcr->mem.bits[row * VCR_ROW_HEIGHT * vcr->mem.pitch];
uint8_t *src = &vcr->mem.tmp[0];
uint8_t mask = (0x1 << layer);
+ /* see comment above for stash_row */
+ mask |= mask << 4;
+
for (int i = 0; i < VCR_ROW_HEIGHT; i++) {
- for (int j = 0; j < vcr->width; j++, dest++, src++) {
+ for (int j = 0; j < vcr->mem.pitch; j++, dest++, src++) {
*dest = (*dest & ~mask) | (*src & mask);
}
}
@@ -1630,10 +1686,10 @@ void vcr_advance_phase(vcr_t *vcr, int delta)
#endif /* USE_XLIB */
case VCR_BACKEND_TYPE_MEM: {
- uint8_t *p = &vcr->mem.bits[vcr->phase];
- uint8_t mask = ~(uint8_t)((0x1 << VCR_LAYER_GRAPHA) | (0x1 << VCR_LAYER_GRAPHB));
+ uint8_t mask = ~(((uint8_t)((0x1 << VCR_LAYER_GRAPHA) | (0x1 << VCR_LAYER_GRAPHB))) << ((vcr->phase & 0x1) << 2));
+ uint8_t *p = &vcr->mem.bits[vcr->phase >> 1];
- for (int i = 0; i < vcr->height; i++, p += vcr->width)
+ for (int i = 0; i < vcr->height; i++, p += vcr->mem.pitch)
*p &= mask;
break;
@@ -1911,7 +1967,7 @@ static int vcr_present_xlib_to_png(vcr_t *vcr, vcr_dest_t *dest)
#define VCR_GRAPHA (0x1 << VCR_LAYER_GRAPHA)
#define VCR_GRAPHB (0x1 << VCR_LAYER_GRAPHB)
#define VCR_GRAPHAB ((0x1 << VCR_LAYER_GRAPHA) | (0x1 << VCR_LAYER_GRAPHB))
-#define VCR_BG (0x1 << VCR_LAYER_BG)
+#define VCR_BG (0x1 << VCR_LAYER_CNT)
/* text over anything is going to just be white */
#define VCR_TEXT_BG (VCR_TEXT | VCR_BG)
@@ -1971,7 +2027,6 @@ static int vcr_present_mem_to_png(vcr_t *vcr, vcr_dest_t *dest)
[VCR_BG] = VCR_PNG_DARK_GRAY,
};
- int n_rows = MIN(vcr_composed_rows(vcr), vcr->height / VCR_ROW_HEIGHT); /* prevent n_rows from overflowing the height */
png_bytepp row_pointers;
uint8_t *row_pixels;
@@ -2015,34 +2070,55 @@ static int vcr_present_mem_to_png(vcr_t *vcr, vcr_dest_t *dest)
* a little slower.
*/
png_write_info(dest->png.png_ctx, dest->png.info_ctx);
- for (int i = 0; i < n_rows; i++) {
- uint8_t *s = &vcr->mem.bits[i * VCR_ROW_HEIGHT * vcr->width];
- uint8_t *d = row_pixels;
- uint8_t mask = (0x1 << VCR_LAYER_GRAPHA) | (0x1 << VCR_LAYER_GRAPHB);
-
- /* The graph layers need to be moved to vcr->phase, since the per-sample updates just draw
- * individual graph bars without bothering to move the whole graph layer every sample.
- * It makes the present more complicated / less efficient, but generally sampling is done
- * more frequently.
- */
- for (int j = 0; j < VCR_ROW_HEIGHT; j++) {
- for (int k = 0; k < vcr->width; k++, s++, d++) { /* TODO: optimize */
- uint8_t *sg = &vcr->mem.bits[(i * VCR_ROW_HEIGHT + j) * vcr->width + ((vcr->phase + k) % vcr->width)];
+ {
+ int n_rows = MIN(vcr_composed_rows(vcr), vcr->height / VCR_ROW_HEIGHT); /* prevent n_rows from overflowing the height */
- *d = (*s & ~mask) | (*sg & mask);
+ for (int i = 0; i < n_rows; i++) {
+ uint8_t *d = row_pixels;
+ uint8_t mask = (0x1 << VCR_LAYER_GRAPHA) | (0x1 << VCR_LAYER_GRAPHB);
+ /* The graph layers need to be moved to vcr->phase, since the per-sample updates just draw
+ * individual graph bars without bothering to move the whole graph layer every sample.
+ * It makes the present more complicated / less efficient, but generally sampling is done
+ * more frequently.
+ */
+ for (int j = 0; j < VCR_ROW_HEIGHT; j++) {
+ uint8_t *s = &vcr->mem.bits[(i * VCR_ROW_HEIGHT + j) * vcr->mem.pitch];
+ uint8_t border = j == (VCR_ROW_HEIGHT - 1) ? VCR_BG : 0x0;
+
+ for (int k = 0; k < vcr->width; k++, s++, d++) {
+ unsigned phase_k_mod_width = ((vcr->phase + k) % vcr->width);
+ unsigned sg_shift = (phase_k_mod_width & 0x1) << 2;
+ uint8_t *sg = &vcr->mem.bits[(i * VCR_ROW_HEIGHT + j) * vcr->mem.pitch + (phase_k_mod_width >> 1)];
+
+ *d = (*s & (~mask & 0xf)) | ((*sg & (mask << sg_shift)) >> sg_shift) | border;
+
+ /* this copy pasta unrolls the loop to unpack two pixels from the nibbles at a time */
+ d++;
+ k++;
+ /* note there's no need to advance s twice since we get two pixels out of it per byte, and sg
+ * is simply recomputed entirely again because of the phase wrapping that must be dealt with,
+ * this can all be optimized later if we care.
+ */
+
+ phase_k_mod_width = ((vcr->phase + k) % vcr->width);
+ sg_shift = (phase_k_mod_width & 0x1) << 2;
+ sg = &vcr->mem.bits[(i * VCR_ROW_HEIGHT + j) * vcr->mem.pitch + (phase_k_mod_width >> 1)];
+
+ *d = ((*s & ~(mask << 4)) >> 4) | ((*sg & (mask << sg_shift)) >> sg_shift) | border;
+ }
}
+
+ png_write_rows(dest->png.png_ctx, row_pointers, VCR_ROW_HEIGHT);
}
- png_write_rows(dest->png.png_ctx, row_pointers, VCR_ROW_HEIGHT);
+ /* just black out whatever remains */
+ memset(row_pixels, 0x00, vcr->width);
+ for (int i = n_rows * VCR_ROW_HEIGHT; i < vcr->height; i++)
+ png_write_row(dest->png.png_ctx, row_pointers[0]);
}
-
- /* just black out whatever remains */
- memset(row_pixels, 0x00, vcr->width);
- for (int i = n_rows * VCR_ROW_HEIGHT; i < vcr->height; i++)
- png_write_row(dest->png.png_ctx, row_pointers[0]);
-
png_write_end(dest->png.png_ctx, dest->png.info_ctx);
+
free(row_pixels);
free(row_pointers);
diff --git a/src/vcr.h b/src/vcr.h
index 089e79a..057d39f 100644
--- a/src/vcr.h
+++ b/src/vcr.h
@@ -35,15 +35,6 @@ typedef enum vcr_layer_t {
VCR_LAYER_SHADOW, /* the shadow layer below the text (XXX: this must be kept after text) */
VCR_LAYER_GRAPHA, /* the graph A layer below the shadow layer */
VCR_LAYER_GRAPHB, /* the graph B layer below the shadow layer */
- VCR_LAYER_BG, /* the background layer (row separators, with milestone breaks */
-#if 0
- /* It should be reasonable to support up to eight layers, so there's room to grow.
- * per-thread memory use seems like a good idea..
- */
- VCR_LAYER_UNUSED1, /* TODO */
- VCR_LAYER_UNUSED2, /* TODO */
- VCR_LAYER_UNUSED3, /* TODO */
-#endif
VCR_LAYER_CNT,
} vcr_layer_t;
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