more stuff

This commit is contained in:
silverweed 2024-09-25 14:57:06 +02:00
parent c83d457738
commit cdcf1db83a
3 changed files with 81 additions and 53 deletions

View file

@ -55,6 +55,7 @@ String8_Node *hover_display_datetime_str(Arena *arena, String8_Node *prev, const
return push_str8_node_child(arena, prev, "%s%u/%02u/%02u %02u:%02u:%02u", fmt_pre, year, month, day, hour, min, sec); return push_str8_node_child(arena, prev, "%s%u/%02u/%02u %02u:%02u:%02u", fmt_pre, year, month, day, hour, min, sec);
} }
// Returns null is `src` doesn't point to a zipped block
internal internal
String8_Node *display_val_rootzip(Arena *arena, String8_Node *prev, const char *fmt, const u8 *src) String8_Node *display_val_rootzip(Arena *arena, String8_Node *prev, const char *fmt, const u8 *src)
{ {
@ -89,6 +90,11 @@ String8_Node *display_val_rootzip(Arena *arena, String8_Node *prev, const char *
template <typename T> template <typename T>
using Display_Fn = String8_Node *(*)(Arena *, String8_Node *, const char *, T); using Display_Fn = String8_Node *(*)(Arena *, String8_Node *, const char *, T);
enum Hover_Section_Flags {
HoverSec_None = 0,
HoverSec_HideIfNotHovered = 1,
};
// Functor used by get_section_hover_info to describe the structure of a section and print data about it. // Functor used by get_section_hover_info to describe the structure of a section and print data about it.
struct Sec_Hover_Fn { struct Sec_Hover_Fn {
u64 start; // the start of the section (including the pre_size, e.g. the TKey) u64 start; // the start of the section (including the pre_size, e.g. the TKey)
@ -99,34 +105,42 @@ struct Sec_Hover_Fn {
Sec_Hover_Info &info; Sec_Hover_Info &info;
u64 &cur_field_off; u64 &cur_field_off;
b8 display_grouped; b8 display_grouped;
b8 hovered = false;
b8 ended = false; b8 ended = false;
u8 cur_section_nesting = 0;
u8 innermost_section_highlighted = 0;
template <typename F> template <typename F>
void titled_section(const char *title, F &&fn) void titled_section(const char *title, F &&sec_body_fn, u64 flags = 0)
{ {
if (ended) // if (ended)
return; // return;
++cur_section_nesting;
String8_Node *prev_desc = info.desc; String8_Node *prev_desc = info.desc;
info.desc = push_str8_node_child(arena, prev_desc, title); info.desc = push_str8_node_child(arena, prev_desc, title);
u64 sec_start = cur_field_off; u64 sec_start = cur_field_off;
fn();
if (!hovered) { sec_body_fn();
// the entire section was not hovered: don't display its description.
assert(cur_field_off >= sec_start);
b8 hovered = roff >= sec_start && roff <= cur_field_off;
if (!hovered & (flags & HoverSec_HideIfNotHovered)) {
pop_str8_node_child(prev_desc, info.desc); pop_str8_node_child(prev_desc, info.desc);
} else if (display_grouped) { } else if (display_grouped) {
// if we're in display_grouped mode, we want to highlight the entire range of the section; // if we're in display_grouped mode, we want to highlight the entire range of the section;
assert(sec_start <= cur_field_off);
u64 sec_len = cur_field_off - sec_start; u64 sec_len = cur_field_off - sec_start;
hovered = roff >= sec_start && roff < sec_start + sec_len;
if (hovered) {
info.rng = { start + sec_start, sec_len }; info.rng = { start + sec_start, sec_len };
ended = true; // In case of nested sections, only highlight the innermost
} // FIXME!
info.desc->selected = innermost_section_highlighted < cur_section_nesting;
innermost_section_highlighted = max(cur_section_nesting, innermost_section_highlighted);
// ended = true;
} }
--cur_section_nesting;
info.desc = prev_desc; info.desc = prev_desc;
return; return;
} }
@ -136,30 +150,33 @@ struct Sec_Hover_Fn {
b8 field(const char *desc_fmt, Display_Fn<T> display_val, T *val_read = nullptr) b8 field(const char *desc_fmt, Display_Fn<T> display_val, T *val_read = nullptr)
{ {
static_assert(!std::is_same_v<T, String8>, "use field_str8 instead."); static_assert(!std::is_same_v<T, String8>, "use field_str8 instead.");
if (ended) // if (ended)
return false; // return false;
u64 field_len = sizeof(T); u64 field_len = sizeof(T);
if (display_grouped || roff < cur_field_off + field_len) { b8 hovered = cur_field_off <= roff && roff < cur_field_off + field_len;
info.rng = { start + cur_field_off, field_len };
T val; T val;
memcpy(&val, (u8 *)data + start + cur_field_off, field_len); memcpy(&val, (u8 *)data + start + cur_field_off, field_len);
display_val(arena, info.desc, desc_fmt, val); String8_Node *desc = display_val(arena, info.desc, desc_fmt, val);
desc->selected = hovered && !display_grouped;
if (val_read) if (val_read)
*val_read = val; *val_read = val;
hovered = true;
if (display_grouped || hovered) {
info.rng = { start + cur_field_off, field_len };
// truncate the hovered section here if we're not in display_grouped mode. // truncate the hovered section here if we're not in display_grouped mode.
ended = !display_grouped; // ended = !display_grouped;
} }
cur_field_off += field_len; cur_field_off += field_len;
return hovered; return true;
} }
template <typename TStrSize> template <typename TStrSize>
void field_str8(const char *desc_fmt, Display_Fn<String8> display_val = hover_display_val_str8) void field_str8(const char *desc_fmt, Display_Fn<String8> display_val = hover_display_val_str8)
{ {
if (ended) // if (ended)
return; // return;
// String size can be stored as different types, like u8 (by ROOT I/O) or u32 (by RNTuple). // String size can be stored as different types, like u8 (by ROOT I/O) or u32 (by RNTuple).
TStrSize str_size; TStrSize str_size;
@ -167,19 +184,22 @@ struct Sec_Hover_Fn {
// DEBUG // DEBUG
if (str_size > 1000) { if (str_size > 1000) {
printf("read str_size = %u at offset 0x%lX!\n", str_size, start + cur_field_off); printf("read str_size = %u at offset 0x%lX!\n", str_size, start + cur_field_off);
ended = true; // ended = true;
return; return;
} }
u64 field_len = sizeof(TStrSize) + (u64)str_size; u64 field_len = sizeof(TStrSize) + (u64)str_size;
if (display_grouped || roff < cur_field_off + field_len) { b8 hovered = cur_field_off <= roff && roff < cur_field_off + field_len;
info.rng = { start + cur_field_off, field_len };
u8 *buf = arena_push_array_nozero<u8>(arena, str_size + 1); u8 *buf = arena_push_array_nozero<u8>(arena, str_size + 1);
memcpy(buf, data + start + cur_field_off + sizeof(TStrSize), str_size); memcpy(buf, data + start + cur_field_off + sizeof(TStrSize), str_size);
buf[str_size] = 0; buf[str_size] = 0;
String8 s = { buf, str_size }; String8 s = { buf, str_size };
display_val(arena, info.desc, desc_fmt, s); String8_Node *desc = display_val(arena, info.desc, desc_fmt, s);
hovered = true; desc->selected = hovered && !display_grouped;
ended = !display_grouped;
if (display_grouped || hovered) {
info.rng = { start + cur_field_off, field_len };
// ended = !display_grouped;
} }
cur_field_off += field_len; cur_field_off += field_len;
} }
@ -199,14 +219,15 @@ struct Sec_Hover_Fn {
// An unspecified range of bytes // An unspecified range of bytes
void range(const char *desc, u64 range_len, Display_Fn<const u8 *> display_val = hover_display_generic_range) void range(const char *desc, u64 range_len, Display_Fn<const u8 *> display_val = hover_display_generic_range)
{ {
if (ended) // if (ended)
return; // return;
if (display_grouped || roff < cur_field_off + range_len) { b8 hovered = cur_field_off <= roff && roff < cur_field_off + range_len;
String8_Node *dsc = display_val(arena, info.desc, desc, data + start + cur_field_off);
dsc->selected = hovered && !display_grouped;
if (display_grouped || hovered) {
info.rng = { start + cur_field_off, range_len }; info.rng = { start + cur_field_off, range_len };
display_val(arena, info.desc, desc, data + start + cur_field_off); // ended = !display_grouped;
hovered = true;
ended = !display_grouped;
} }
cur_field_off += range_len; cur_field_off += range_len;
} }
@ -214,17 +235,19 @@ struct Sec_Hover_Fn {
// Returns true if `was_zipped` was read. // Returns true if `was_zipped` was read.
b8 maybe_rootzip(b8 *was_zipped = nullptr) b8 maybe_rootzip(b8 *was_zipped = nullptr)
{ {
if (ended) // if (ended)
return false; // return false;
// TODO boundary checks // TODO boundary checks
const u64 range_len = 9; const u64 range_len = 9;
b8 hovered = cur_field_off <= roff && roff < cur_field_off + range_len;
if (display_val_rootzip(arena, info.desc, "Zipped Block", data + start + cur_field_off)) { if (display_val_rootzip(arena, info.desc, "Zipped Block", data + start + cur_field_off)) {
if (was_zipped) *was_zipped = true; if (display_grouped || hovered) {
if (display_grouped || roff < cur_field_off + range_len) { if (was_zipped)
*was_zipped = true;
info.rng = { start + cur_field_off, range_len }; info.rng = { start + cur_field_off, range_len };
hovered = true; info.desc->selected = hovered;
ended = !display_grouped; // ended = !display_grouped;
} }
cur_field_off += range_len; cur_field_off += range_len;
} else if (was_zipped) { } else if (was_zipped) {
@ -342,7 +365,7 @@ struct Sec_Hover_Fn {
// DEBUG // DEBUG
if (size > 100000) { if (size > 100000) {
printf("read field_frame_size = %lu at offset 0x%lX!\n", size, start + cur_field_off); printf("read field_frame_size = %lu at offset 0x%lX!\n", size, start + cur_field_off);
ended = true; // ended = true;
return; return;
} }
field_le<u32>("Field version: %u"); field_le<u32>("Field version: %u");
@ -372,7 +395,7 @@ struct Sec_Hover_Fn {
u64 extra_size = size - (cur_field_off - start_off); u64 extra_size = size - (cur_field_off - start_off);
if (extra_size > 0) if (extra_size > 0)
range("Unknown", extra_size); range("Unknown", extra_size);
}); }, HoverSec_HideIfNotHovered);
} }
void column_desc(const char *title) void column_desc(const char *title)
@ -387,7 +410,7 @@ struct Sec_Hover_Fn {
// DEBUG // DEBUG
if (size > 100000) { if (size > 100000) {
printf("read column_desc_size = %lu at offset 0x%lX!\n", size, start + cur_field_off); printf("read column_desc_size = %lu at offset 0x%lX!\n", size, start + cur_field_off);
ended = true; // ended = true;
return; return;
} }
@ -421,7 +444,7 @@ struct Sec_Hover_Fn {
printf("extra size: %lu - %lu = %lu\n", size, cur_field_off - start_off, extra_size); printf("extra size: %lu - %lu = %lu\n", size, cur_field_off - start_off, extra_size);
if (extra_size > 0) if (extra_size > 0)
range("Unknown", extra_size); range("Unknown", extra_size);
}); }, HoverSec_HideIfNotHovered);
} }
template <typename F> template <typename F>
@ -439,7 +462,7 @@ struct Sec_Hover_Fn {
// DEBUG // DEBUG
if (n_elems > 100000) { if (n_elems > 100000) {
printf("read n_elems = %u at offset 0x%lX!\n", n_elems, start + cur_field_off); printf("read n_elems = %u at offset 0x%lX!\n", n_elems, start + cur_field_off);
ended = true; // ended = true;
return; return;
} }
for (u32 i = 0; i < n_elems; ++i) { for (u32 i = 0; i < n_elems; ++i) {

View file

@ -225,6 +225,9 @@ void imgui_render_string_tree(Arena *arena, String8_Node *root, u16 indent = 0)
} }
for (String8_Node *node = root; node; node = node->next) { for (String8_Node *node = root; node; node = node->next) {
if (node->selected)
ImGui::TextColored(ImColor(1.0f, 1.0f, 0.0f), "%s%s", indent_str.c(), node->str.c());
else
ImGui::Text("%s%s", indent_str.c(), node->str.c()); ImGui::Text("%s%s", indent_str.c(), node->str.c());
if (node->first_child) if (node->first_child)

View file

@ -15,4 +15,6 @@ struct String8_Node {
String8_Node *next, *prev, *head; String8_Node *next, *prev, *head;
String8_Node *first_child, *last_child; String8_Node *first_child, *last_child;
String8 str; String8 str;
// @Cleanup: only used by hover.cpp, it should not belong in here...
b8 selected;
}; };