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use meta.check_bounds, improvements to stable_array

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This commit is contained in:
Judah Caruso 2025-05-27 00:42:42 -06:00
parent 3feb2f98c9
commit 71964e8aea
2 changed files with 80 additions and 65 deletions
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121
array/stable_array.jai
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@ -6,20 +6,71 @@ Stable_Array :: struct(T: Type, ITEMS_PER_CHUNK := 32) {
Chunk :: Static_Array(ITEMS_PER_CHUNK, T); Chunk :: Static_Array(ITEMS_PER_CHUNK, T);
} }
init :: (a: *Stable_Array, allocator: Allocator) {
a.allocator = allocator;
a.chunks.allocator = allocator;
}
append :: (a: *Stable_Array) -> *a.T {
chunk := find_or_create_chunk(a, 1);
item := append(chunk);
a.count += 1;
return item;
}
append :: (a: *Stable_Array, value: a.T) -> *a.T {
chunk := find_or_create_chunk(a, 1);
item := append(chunk, value);
a.count += 1;
return item;
}
append :: (a: *Stable_Array, values: ..a.T) -> *a.T {
first: *a.T;
for values {
if first == null {
first = inline append(a, it);
}
else {
inline append(a, it);
}
}
return first;
}
reset :: (a: *Stable_Array) {
for a.chunks it.count = 0;
a.count = 0;
a.chunks.count = 0;
}
operator [] :: (a: Stable_Array, index: int, loc := #caller_location) -> a.T #no_abc { operator [] :: (a: Stable_Array, index: int, loc := #caller_location) -> a.T #no_abc {
b_idx := index / a.ITEMS_PER_CHUNK; b_idx := index / a.ITEMS_PER_CHUNK;
i_idx := index % a.ITEMS_PER_CHUNK; i_idx := index % a.ITEMS_PER_CHUNK;
assert(b_idx < a.chunks.count && i_idx < a.chunks[b_idx].count); meta.check_bounds(b_idx, a.chunks.count, loc = loc);
meta.check_bounds(i_idx, a.chunks[b_idx].count, loc = loc);
return a.chunks[b_idx].items[i_idx]; return a.chunks[b_idx].items[i_idx];
} }
operator *[] :: (a: *Stable_Array, index: int, loc := #caller_location) -> *a.T #no_abc { operator *[] :: (a: *Stable_Array, index: int, loc := #caller_location) -> *a.T #no_abc {
b_idx := index / a.ITEMS_PER_CHUNK; b_idx := index / a.ITEMS_PER_CHUNK;
i_idx := index % a.ITEMS_PER_CHUNK; i_idx := index % a.ITEMS_PER_CHUNK;
assert(b_idx < a.chunks.count && i_idx < a.chunks[b_idx].count); meta.check_bounds(b_idx, a.chunks.count, loc = loc);
meta.check_bounds(i_idx, a.chunks[b_idx].count, loc = loc);
return *a.chunks[b_idx].items[i_idx]; return *a.chunks[b_idx].items[i_idx];
} }
operator []= :: (a: *Stable_Array, index: int, value: a.T, loc := #caller_location) #no_abc {
c_idx := index / a.ITEMS_PER_CHUNK;
i_idx := index % a.ITEMS_PER_CHUNK;
meta.check_bounds(c_idx, a.chunks.count, loc = loc);
meta.check_bounds(i_idx, a.chunks[b_idx].count, loc = loc);
chunk := a.chunks[c_idx];
chunk.items[i_idx] = value;
}
for_expansion :: (a: Stable_Array, body: Code, flags: For_Flags) #expand { for_expansion :: (a: Stable_Array, body: Code, flags: For_Flags) #expand {
for i: 0..a.count - 1 { for i: 0..a.count - 1 {
`it := a[i]; `it := a[i];
@ -28,76 +79,38 @@ for_expansion :: (a: Stable_Array, body: Code, flags: For_Flags) #expand {
} }
} }
append :: (a: *Stable_Array) -> *a.T {
chunk := get_chunk(a, 1);
item := append(chunk);
a.count += 1;
return item;
}
append :: (a: *Stable_Array, value: a.T) -> *a.T {
chunk := get_chunk(a, 1);
item := append(chunk, value);
a.count += 1;
return item;
}
append :: (a: *Stable_Array, values: ..a.T) -> *a.T {
first: *a.T;
for values {
if first == null {
first = append(a, it);
}
else {
append(a, it);
}
}
return first;
}
reset :: (a: *Stable_Array, $keep_memory := true) {
#if keep_memory {
for a.chunks it.count = 0;
}
else {
for a.chunks mem.release_memory(it,, allocator = a.allocator);
mem.release_memory(a.chunks);
}
a.count = 0;
a.chunks.count = 0;
}
#scope_file; #scope_file;
mem :: #import "jc/memory"; mem :: #import "jc/memory";
meta :: #import "jc/meta";
get_chunk :: (a: *Stable_Array, amount: int) -> *a.Chunk { find_or_create_chunk :: (a: *Stable_Array, amount: int) -> *a.Chunk {
if a.chunks.count == 0 { if a.chunks.count == 0 {
if a.allocator.proc == null { return create_chunk(a);
a.allocator = context.allocator;
a.chunks.allocator = a.allocator;
}
return make_chunk(a);
} }
last := a.chunks[a.chunks.count - 1]; last := a.chunks[a.chunks.count - 1];
if amount > a.ITEMS_PER_CHUNK - last.count { if amount > a.ITEMS_PER_CHUNK - last.count {
last = make_chunk(a); last = create_chunk(a);
} }
return last; return last;
} }
make_chunk :: (a: *Stable_Array) -> *a.Chunk { create_chunk :: (a: *Stable_Array) -> *a.Chunk {
inline try_lazy_init(a);
chunk := mem.request_memory(a.Chunk,, allocator = a.allocator); chunk := mem.request_memory(a.Chunk,, allocator = a.allocator);
append(*a.chunks, chunk); append(*a.chunks, chunk);
return chunk; return chunk;
} }
try_lazy_init :: (a: *Stable_Array) {
if a.allocator.proc == null {
init(a, context.allocator);
}
}
// #run { // #run {
// #import "Basic"; // #import "Basic";
@ -107,7 +120,7 @@ make_chunk :: (a: *Stable_Array) -> *a.Chunk {
// append(*a, it * it); // append(*a, it * it);
// } // }
// reset(*a, keep_memory = false); // reset(*a);
// append(*a, 10); // append(*a, 10);
// append(*a, 20); // append(*a, 20);

24
array/static_array.jai
View file

@ -5,18 +5,18 @@ Static_Array :: struct(capacity: int, T: Type) {
Default :: #run mem.default_of(T); Default :: #run mem.default_of(T);
} }
operator [] :: inline (a: Static_Array, index: int, loc := #caller_location) -> a.T #no_abc { operator [] :: inline (a: Static_Array, $$index: int, loc := #caller_location) -> a.T #no_abc {
assert(index >= 0 && index < a.count, "invalid index: % (max: %)", index, a.count - 1, loc = loc); meta.check_bounds(index, a.count, loc = loc);
return a.items[index]; return a.items[index];
} }
operator *[] :: inline (a: *Static_Array, index: int, loc := #caller_location) -> *a.T #no_abc { operator *[] :: inline (a: *Static_Array, $$index: int, loc := #caller_location) -> *a.T #no_abc {
assert(index >= 0 && index < a.count, "invalid index: % (max: %)", index, a.count - 1, loc = loc); meta.check_bounds(index, a.count, loc = loc);
return *a.items[index]; return *a.items[index];
} }
operator []= :: inline (a: *Static_Array, index: int, value: a.T, loc := #caller_location) #no_abc { operator []= :: inline (a: *Static_Array, $$index: int, value: a.T, loc := #caller_location) #no_abc {
assert(index >= 0 && index < a.capacity, "invalid index: % (max: %)", index, a.count - 1, loc = loc); meta.check_bounds(index, a.count, loc = loc);
a.items[index] = value; a.items[index] = value;
} }
@ -27,7 +27,7 @@ for_expansion :: (a: *Static_Array, body: Code, flags: For_Flags) #expand {
} }
} }
append :: inline (a: *Static_Array, item: a.T) -> *a.T { append :: inline (a: *Static_Array, item: a.T) -> *a.T #no_abc {
ensure_array_has_room(a, 1); ensure_array_has_room(a, 1);
ptr := *a.items[a.count]; ptr := *a.items[a.count];
ptr.* = item; ptr.* = item;
@ -35,14 +35,14 @@ append :: inline (a: *Static_Array, item: a.T) -> *a.T {
return ptr; return ptr;
} }
append :: inline (a: *Static_Array) -> *a.T { append :: inline (a: *Static_Array) -> *a.T #no_abc {
ensure_array_has_room(a, 1); ensure_array_has_room(a, 1);
ptr := *a.items[a.count]; ptr := *a.items[a.count];
a.count += 1; a.count += 1;
return ptr; return ptr;
} }
append :: inline (a: *Static_Array, items: ..a.T) -> *a.T { append :: inline (a: *Static_Array, items: ..a.T) -> *a.T #no_abc {
ensure_array_has_room(a, items.count); ensure_array_has_room(a, items.count);
first := *a.items[a.count]; first := *a.items[a.count];
memcpy(a.items.data + a.count, items.data, items.count * size_of(a.T)); memcpy(a.items.data + a.count, items.data, items.count * size_of(a.T));
@ -50,8 +50,8 @@ append :: inline (a: *Static_Array, items: ..a.T) -> *a.T {
return first; return first;
} }
reset :: inline (a: *Static_Array, $keep_memory := true) { reset :: inline (a: *Static_Array) #no_abc {
#if !keep_memory for 0..a.count - 1 a.items[it] = a.Default; for 0..a.count - 1 a.items[it] = a.Default;
a.count = 0; a.count = 0;
} }
@ -77,6 +77,8 @@ ensure_array_has_room :: (array: *Static_Array, count: int, loc := #caller_locat
} }
mem :: #import "jc/memory"; mem :: #import "jc/memory";
meta :: #import "jc/meta";
basic :: #import "Basic"; // @future basic :: #import "Basic"; // @future