Distinguish SI and Binary Prefixes

SI prefixes [the decimal prefixes] refer strictly to powers of 10. They
should not be used to indicate powers of 2. e.g., one kilobit
represents 1000 bits instead of 1024 bits. IEC 60027‐2 symbols are
formed adding a "i" to the SI symbol (e.g. G + i = Gi).

include/mimalloc-types.h

@@ -105,10 +105,10 @@ terms of the MIT license. A copy of the license can be found in the file
 
 // Main tuning parameters for segment and page sizes
 // Sizes for 64-bit, divide by two for 32-bit
-#define MI_SMALL_PAGE_SHIFT               (13 + MI_INTPTR_SHIFT)      // 64kb
-#define MI_MEDIUM_PAGE_SHIFT              ( 3 + MI_SMALL_PAGE_SHIFT)  // 512kb
-#define MI_LARGE_PAGE_SHIFT               ( 3 + MI_MEDIUM_PAGE_SHIFT) // 4mb
-#define MI_SEGMENT_SHIFT                  ( MI_LARGE_PAGE_SHIFT)      // 4mb
+#define MI_SMALL_PAGE_SHIFT               (13 + MI_INTPTR_SHIFT)      // 64KiB
+#define MI_MEDIUM_PAGE_SHIFT              ( 3 + MI_SMALL_PAGE_SHIFT)  // 512KiB
+#define MI_LARGE_PAGE_SHIFT               ( 3 + MI_MEDIUM_PAGE_SHIFT) // 4MiB
+#define MI_SEGMENT_SHIFT                  ( MI_LARGE_PAGE_SHIFT)      // 4MiB
 
 // Derived constants
 #define MI_SEGMENT_SIZE                   (1UL<<MI_SEGMENT_SHIFT)
@@ -124,9 +124,9 @@ terms of the MIT license. A copy of the license can be found in the file
 
 // The max object size are checked to not waste more than 12.5% internally over the page sizes.
 // (Except for large pages since huge objects are allocated in 4MiB chunks)
-#define MI_SMALL_OBJ_SIZE_MAX             (MI_SMALL_PAGE_SIZE/4)   // 16kb
-#define MI_MEDIUM_OBJ_SIZE_MAX            (MI_MEDIUM_PAGE_SIZE/4)  // 128kb
-#define MI_LARGE_OBJ_SIZE_MAX             (MI_LARGE_PAGE_SIZE/2)   // 2mb
+#define MI_SMALL_OBJ_SIZE_MAX             (MI_SMALL_PAGE_SIZE/4)   // 16KiB
+#define MI_MEDIUM_OBJ_SIZE_MAX            (MI_MEDIUM_PAGE_SIZE/4)  // 128KiB
+#define MI_LARGE_OBJ_SIZE_MAX             (MI_LARGE_PAGE_SIZE/2)   // 2MiB
 #define MI_LARGE_OBJ_WSIZE_MAX            (MI_LARGE_OBJ_SIZE_MAX/MI_INTPTR_SIZE)
 #define MI_HUGE_OBJ_SIZE_MAX              (2*MI_INTPTR_SIZE*MI_SEGMENT_SIZE)        // (must match MI_REGION_MAX_ALLOC_SIZE in memory.c)
 
@@ -249,13 +249,13 @@ typedef struct mi_page_s {
 
 
 typedef enum mi_page_kind_e {
-  MI_PAGE_SMALL,    // small blocks go into 64kb pages inside a segment
-  MI_PAGE_MEDIUM,   // medium blocks go into 512kb pages inside a segment
+  MI_PAGE_SMALL,    // small blocks go into 64KiB pages inside a segment
+  MI_PAGE_MEDIUM,   // medium blocks go into 512KiB pages inside a segment
   MI_PAGE_LARGE,    // larger blocks go into a single page spanning a whole segment
-  MI_PAGE_HUGE      // huge blocks (>512kb) are put into a single page in a segment of the exact size (but still 2mb aligned)
+  MI_PAGE_HUGE      // huge blocks (>512KiB) are put into a single page in a segment of the exact size (but still 2MiB aligned)
 } mi_page_kind_t;
 
-// Segments are large allocated memory blocks (2mb on 64 bit) from
+// Segments are large allocated memory blocks (2MiB on 64 bit) from
 // the OS. Inside segments we allocated fixed size _pages_ that
 // contain blocks.
 typedef struct mi_segment_s {