Refactor to use portable minimum-width integers.

The signed and unsigned fixed-width integers (int32_t, uint32_t etc.) are optional in C99 (and above). Use the non-optional minimum-width integers (int_fast32_t, uint_fast32_t and int_least32_t, uint_least32_t etc.) instead. To simulate unsigned wrap-around, use the GUF_UWRAP macros in guf_common.h cf. https://en.cppreference.com/w/c/types/integer (last-retrieved: 2025-05-18)
2025-05-18 22:03:03 +02:00 · 2025-05-18 22:03:03 +02:00 · 57f0e47efc
commit 57f0e47efc
parent 7ec2af0c33
13 changed files with 3613 additions and 1871 deletions
--- a/src/guf_alloc_tracker.h
+++ b/src/guf_alloc_tracker.h
@ -16,13 +16,13 @@ typedef struct guf_alloc_tracker {
    const char *name;
    size_t alloc_count, realloc_count, free_count;
    ptrdiff_t allocated_bytes;
-    uint32_t id; 
+    unsigned id; 
    bool enabled;
 } guf_alloc_tracker;
 #if !defined(GUF_ALLOC_TRACKER_IMPL_STATIC) && !defined(GUF_ALLOC_TRACKER_IMPL)
-    GUF_ALLOC_TRACKER_KWRDS guf_alloc_tracker *guf_alloc_tracker_init(guf_alloc_tracker *t, uint32_t id, const char* name, FILE *log, FILE *err_log);
+    GUF_ALLOC_TRACKER_KWRDS guf_alloc_tracker *guf_alloc_tracker_init(guf_alloc_tracker *t, unsigned id, const char* name, FILE *log, FILE *err_log);
-    GUF_ALLOC_TRACKER_KWRDS guf_alloc_tracker guf_alloc_tracker_new(uint32_t id, const char* name, FILE *log, FILE *err_log);
+    GUF_ALLOC_TRACKER_KWRDS guf_alloc_tracker guf_alloc_tracker_new(unsigned id, const char* name, FILE *log, FILE *err_log);
    GUF_ALLOC_TRACKER_KWRDS void guf_alloc_tracker_print(const guf_alloc_tracker *t, FILE *f);
    GUF_ALLOC_TRACKER_KWRDS bool guf_alloc_tracker_found_leak(const guf_alloc_tracker *t);
@ -38,7 +38,7 @@ typedef struct guf_alloc_tracker {
 #define GUF_MATH_CKDINT_IMPL_STATIC
 #include "guf_math_ckdint.h"
-GUF_ALLOC_TRACKER_KWRDS guf_alloc_tracker *guf_alloc_tracker_init(guf_alloc_tracker *t, uint32_t id, const char* name, FILE *log, FILE *err_log)
+GUF_ALLOC_TRACKER_KWRDS guf_alloc_tracker *guf_alloc_tracker_init(guf_alloc_tracker *t, unsigned id, const char* name, FILE *log, FILE *err_log)
 {
    GUF_ASSERT_RELEASE(t); 
    t->log = log; 
@ -51,7 +51,7 @@ GUF_ALLOC_TRACKER_KWRDS guf_alloc_tracker *guf_alloc_tracker_init(guf_alloc_trac
    return t;
 }
-GUF_ALLOC_TRACKER_KWRDS guf_alloc_tracker guf_alloc_tracker_new(uint32_t id, const char* name, FILE *log, FILE *err_log)
+GUF_ALLOC_TRACKER_KWRDS guf_alloc_tracker guf_alloc_tracker_new(unsigned id, const char* name, FILE *log, FILE *err_log)
 {
    guf_alloc_tracker t; 
    guf_alloc_tracker_init(&t, id, name, log, err_log);
@ -78,7 +78,7 @@ GUF_ALLOC_TRACKER_KWRDS void guf_alloc_tracker_print(const guf_alloc_tracker *t,
    }
    fprintf(f, 
-            "guf_alloc_tracker (name '%s' id = %" PRIu32 "):\n" 
+            "guf_alloc_tracker (name '%s' id = %u):\n" 
            "allocated_bytes: %td\n"
            "alloc_count: %zu\n" 
            "realloc_count: %zu\n"
@ -96,25 +96,25 @@ GUF_ALLOC_TRACKER_KWRDS bool guf_track_alloc(guf_alloc_tracker *t, ptrdiff_t siz
    bool success = true;
    if (guf_saturating_add_size_t(t->alloc_count, 1, &t->alloc_count) != GUF_MATH_CKD_SUCCESS && t->err_log) {
-        fprintf(t->err_log, "WARNING in guf_track_alloc (name '%s' id %" PRIu32 "): alloc_count reached SIZE_MAX\n", t->name ? t->name : "unnamed", t->id);
+        fprintf(t->err_log, "WARNING in guf_track_alloc (name '%s' id %u): alloc_count reached SIZE_MAX\n", t->name ? t->name : "unnamed", t->id);
    }
    if (guf_saturating_add_ptrdiff_t(t->allocated_bytes, size, &t->allocated_bytes) != GUF_MATH_CKD_SUCCESS) {
        if (t->err_log) {
-            fprintf(t->err_log, "ERROR in guf_track_alloc (name '%s' id %" PRIu32 "): allocated_byte overflow\n", t->name ? t->name : "unnamed", t->id);
+            fprintf(t->err_log, "ERROR in guf_track_alloc (name '%s' id %u): allocated_byte overflow\n", t->name ? t->name : "unnamed", t->id);
        }
        success = false;
    }
    if (t->allocated_bytes < 0) {
        if (t->err_log) {
-            fprintf(t->err_log, "ERROR in guf_track_alloc (name '%s' id %" PRIu32 "): allocated_bytes < 0\n", t->name ? t->name : "unnamed", t->id);
+            fprintf(t->err_log, "ERROR in guf_track_alloc (name '%s' id %u): allocated_bytes < 0\n", t->name ? t->name : "unnamed", t->id);
        }
        success = false;
    }
    if (t->log) {
-        fprintf(t->log, "guf_alloc_tracker (name '%s' id %" PRIu32 "): alloc (%td bytes) %s\n", t->name ? t->name : "unnamed", t->id, size, success ? "SUCCESS" : "FAILURE");
+        fprintf(t->log, "guf_alloc_tracker (name '%s' id %u): alloc (%td bytes) %s\n", t->name ? t->name : "unnamed", t->id, size, success ? "SUCCESS" : "FAILURE");
    }
    return success;
 }
@ -127,40 +127,40 @@ GUF_ALLOC_TRACKER_KWRDS bool guf_track_realloc(guf_alloc_tracker *t, ptrdiff_t o
    bool success = true;
    if (guf_saturating_add_size_t(t->realloc_count, 1, &t->realloc_count) && t->err_log) {
-        fprintf(t->err_log, "WARNING in guf_track_realloc (name '%s' id %" PRIu32 "): realloc_count reached SIZE_MAX\n", t->name ? t->name : "unnamed", t->id);
+        fprintf(t->err_log, "WARNING in guf_track_realloc (name '%s' id %u): realloc_count reached SIZE_MAX\n", t->name ? t->name : "unnamed", t->id);
    }
    if (old_size < 0 || new_size < 0) {
        success = false;
        if (t->err_log) {
-            fprintf(t->err_log, "ERROR in guf_track_realloc (name '%s' id %" PRIu32 "): old_size < 0 or new_size < 0\n", t->name ? t->name : "unnamed", t->id);
+            fprintf(t->err_log, "ERROR in guf_track_realloc (name '%s' id %u): old_size < 0 or new_size < 0\n", t->name ? t->name : "unnamed", t->id);
        }
    }
    if (guf_saturating_sub_ptrdiff_t(t->allocated_bytes, old_size, &t->allocated_bytes)) {
        success = false;
        if (t->err_log) {
-            fprintf(t->err_log, "ERROR in guf_track_realloc (name '%s' id %" PRIu32 "): allocated_bytes - old_size under/overflows\n", t->name ? t->name : "unnamed", t->id);
+            fprintf(t->err_log, "ERROR in guf_track_realloc (name '%s' id %u): allocated_bytes - old_size under/overflows\n", t->name ? t->name : "unnamed", t->id);
        }
    } 
    if (t->allocated_bytes < 0) {
        success = false;
-        fprintf(t->err_log, "ERROR in guf_track_realloc (name '%s' id %" PRIu32 "): allocated_bytes < 0 after subtracting old_size\n", t->name ? t->name : "unnamed", t->id);
+        fprintf(t->err_log, "ERROR in guf_track_realloc (name '%s' id %u): allocated_bytes < 0 after subtracting old_size\n", t->name ? t->name : "unnamed", t->id);
    }
    if (guf_saturating_add_ptrdiff_t(t->allocated_bytes, new_size, &t->allocated_bytes)) {
        success = false; 
        if (t->err_log) {
-            fprintf(t->err_log, "ERROR in guf_track_realloc (name '%s' id %" PRIu32 "): allocated_bytes overflow \n", t->name ? t->name : "unnamed", t->id);
+            fprintf(t->err_log, "ERROR in guf_track_realloc (name '%s' id %u): allocated_bytes overflow \n", t->name ? t->name : "unnamed", t->id);
        }
    } 
    if (t->allocated_bytes < 0) {
        success = false;
-        fprintf(t->err_log, "ERROR in guf_track_realloc (name '%s' id %" PRIu32 "): allocated_bytes < 0 after adding new_size\n", t->name ? t->name : "unnamed", t->id);
+        fprintf(t->err_log, "ERROR in guf_track_realloc (name '%s' id %u): allocated_bytes < 0 after adding new_size\n", t->name ? t->name : "unnamed", t->id);
    }
    if (t->log) {
-        fprintf(t->log, "guf_alloc_tracker (name '%s' id %" PRIu32 "): realloc (from %td to %td bytes) %s\n", t->name ? t->name : "unnamed", t->id, old_size, new_size, (success ? "SUCCESS" : "FAILURE"));
+        fprintf(t->log, "guf_alloc_tracker (name '%s' id %u): realloc (from %td to %td bytes) %s\n", t->name ? t->name : "unnamed", t->id, old_size, new_size, (success ? "SUCCESS" : "FAILURE"));
    }
    return success;
@ -173,31 +173,31 @@ GUF_ALLOC_TRACKER_KWRDS bool guf_track_free(guf_alloc_tracker *t, ptrdiff_t size
    bool success = true;
    if (guf_saturating_add_size_t(t->free_count, 1, &t->free_count) && t->err_log) {
-        fprintf(t->err_log, "WARNING in guf_track_free (name '%s' id %" PRIu32 "): free_count reached SIZE_MAX\n", t->name ? t->name : "unnamed", t->id);
+        fprintf(t->err_log, "WARNING in guf_track_free (name '%s' id %u): free_count reached SIZE_MAX\n", t->name ? t->name : "unnamed", t->id);
    } 
    if (size < 0) {
        success = false;
        if (t->err_log) {
-            fprintf(t->err_log, "ERROR in guf_track_free (name '%s' id %" PRIu32 "): size < 0\n", t->name ? t->name : "unnamed", t->id);
+            fprintf(t->err_log, "ERROR in guf_track_free (name '%s' id %u): size < 0\n", t->name ? t->name : "unnamed", t->id);
        }
    }
    if (t->allocated_bytes < size) {
        success = false;
        if (t->err_log) {
-            fprintf(t->err_log, "ERROR in guf_track_free (name '%s' id %" PRIu32 "): freed more bytes than allocated\n", t->name ? t->name : "unnamed", t->id);
+            fprintf(t->err_log, "ERROR in guf_track_free (name '%s' id %u): freed more bytes than allocated\n", t->name ? t->name : "unnamed", t->id);
        }
    }
    if (guf_saturating_sub_ptrdiff_t(t->allocated_bytes, size, &t->allocated_bytes)) {
        success = false;
        if (t->err_log) {
-            fprintf(t->err_log, "ERROR in guf_track_free (name '%s' id %" PRIu32 "): allocated_bytes - size under/overflows\n", t->name ? t->name : "unnamed", t->id);
+            fprintf(t->err_log, "ERROR in guf_track_free (name '%s' id %u): allocated_bytes - size under/overflows\n", t->name ? t->name : "unnamed", t->id);
        }
    }
    if (t->log) {
-        fprintf(t->log, "guf_alloc_tracker (name '%s' id %" PRIu32 "): free (%td bytes) %s\n", t->name ? t->name : "unnamed", t->id, size, (success ? "SUCCESS" : "FAILURE"));
+        fprintf(t->log, "guf_alloc_tracker (name '%s' id %u): free (%td bytes) %s\n", t->name ? t->name : "unnamed", t->id, size, (success ? "SUCCESS" : "FAILURE"));
    }
    return success;
--- a/src/guf_common.h
+++ b/src/guf_common.h
@ -10,22 +10,39 @@
 #include <inttypes.h>
 #include <stddef.h>
 #ifndef GUF_PLATFORM_BIG_ENDIAN
    #define GUF_PLATFORM_LITTLE_ENDIAN 
 #endif
 #define GUF_UINT8_MAX  0xffu
 #define GUF_UINT16_MAX 0xffffu
 #define GUF_UINT32_MAX 0xfffffffful
 #define GUF_UINT64_MAX 0xffffffffffffffffull
-#ifndef GUF_PLATFORM_BIG_ENDIAN
+#define GUF_UWRAP_8(UINT)  ( (UINT) & GUF_UINT8_MAX  ) 
-    #define GUF_PLATFORM_LITTLE_ENDIAN 
+#define GUF_UWRAP_16(UINT) ( (UINT) & GUF_UINT16_MAX ) 
-#endif
+#define GUF_UWRAP_32(UINT) ( (UINT) & GUF_UINT32_MAX ) 
 #define GUF_UWRAP_64(UINT) ( (UINT) & GUF_UINT64_MAX ) 
-#if SIZE_MAX == UINT64_MAX
+#define GUF_INT8_MAX  127
 #define GUF_INT8_MIN  -128
 #define GUF_INT16_MAX 32767
 #define GUF_INT16_MIN (-GUF_INT16_MAX - 1)
 #define GUF_INT32_MAX 2147483647L
 #define GUF_INT32_MIN (-GUF_INT32_MAX - 1)
 #define GUF_INT64_MAX 9223372036854775807LL
 #define GUF_INT64_MIN (-GUF_INT64_MAX - 1)
 #if SIZE_MAX == GUF_UINT64_MAX
    #define GUF_PLATFORM_BITS 64
-#elif SIZE_MAX == UINT32_MAX
+#elif SIZE_MAX == GUF_UINT32_MAX
    #define GUF_PLATFORM_BITS 32
-#elif SIZE_MAX == UINT16_MAX
+#elif SIZE_MAX == GUF_UINT16_MAX
    #define GUF_PLATFORM_BITS 16
-#elif SIZE_MAX == UINT8_MAX
+#elif SIZE_MAX == GUF_UINT8_MAX
    #define GUF_PLATFORM_BITS 8
 #else
    #define GUF_PLATFORM_BITS 64
--- a/src/guf_dict.h
+++ b/src/guf_dict.h
@ -34,18 +34,18 @@
 #endif
 #if defined(GUF_DICT_32_BIT_HASH)
-    #define GUF_DICT_HASH_T uint32_t
+    #define GUF_DICT_HASH_T uint_fast32_t
-    #define GUF_DICT_HASH_T_MAX UINT32_MAX
+    #define GUF_DICT_HASH_T_MAX GUF_UINT32_MAX
 #elif defined(GUF_DICT_64_BIT_HASH)
-    #define GUF_DICT_HASH_T uint64_t
+    #define GUF_DICT_HASH_T uint_fast64_t
-    #define GUF_DICT_HASH_T_MAX UINT64_MAX
+    #define GUF_DICT_HASH_T_MAX GUF_UINT64_MAX
 #else
    #define GUF_DICT_HASH_T guf_hash_size_t
    #define GUF_DICT_HASH_T_MAX GUF_HASH_MAX
 #endif
 #if defined (GUF_DICT_64_BIT_IDX)
-    #define GUF_DICT_KV_META_T uint64_t
+    #define GUF_DICT_KV_META_T uint_least64_t
    /*
        Store a 16-bit hash-fragment in the upper 16-bits of kv_meta 
        -> (2^48 - 1 is IDX_NULL, 2^48 - 2 is IDX_TOMBSTONE, 2^48 - 3 is the largest actual idx,
@ -54,15 +54,15 @@
    #define GUF_DICT_KV_META_HASHFRAG_MASK   UINT64_C(0xffff000000000000)
    #define GUF_DICT_KV_META_IDX_MASK      (~UINT64_C(0xffff000000000000))
-    #if GUF_DICT_HASH_T_MAX == UINT64_MAX
+    #if GUF_DICT_HASH_T_MAX == GUF_UINT64_MAX
        #define GUF_DICT_HASH_T_GET_HASHFRAG(HASH) ( (HASH) & GUF_DICT_KV_META_HASHFRAG_MASK )
-    #elif GUF_DICT_HASH_T_MAX == UINT32_MAX
+    #elif GUF_DICT_HASH_T_MAX == GUF_UINT32_MAX
-        #define GUF_DICT_HASH_T_GET_HASHFRAG(HASH) ( (((uint64_t)(HASH)) << 32) & GUF_DICT_KV_META_HASHFRAG_MASK ) 
+        #define GUF_DICT_HASH_T_GET_HASHFRAG(HASH) ( (((uint_least64_t)(HASH)) << 32u) & GUF_DICT_KV_META_HASHFRAG_MASK ) 
    #else
        #error "guf_dict: invalid hash size (should not happen)"
    #endif
 #else
-    #define GUF_DICT_KV_META_T uint32_t
+    #define GUF_DICT_KV_META_T uint_least32_t
    /*
        Store a 7-bit hash-fragment in the upper 7-bits of kv_meta 
        -> (2^25 - 1 is IDX_NULL, 2^25 - 2 is IDX_TOMBSTONE, 2^25 - 3 is the largest actual idx,
@ -71,9 +71,9 @@
    #define GUF_DICT_KV_META_HASHFRAG_MASK  UINT32_C(0xfe000000) 
    #define GUF_DICT_KV_META_IDX_MASK     (~UINT32_C(0xfe000000))
-    #if GUF_DICT_HASH_T_MAX == UINT64_MAX
+    #if GUF_DICT_HASH_T_MAX == GUF_UINT64_MAX
-        #define GUF_DICT_HASH_T_GET_HASHFRAG(HASH) ( ((uint32_t)((HASH) >> 32)) & GUF_DICT_KV_META_HASHFRAG_MASK )
+        #define GUF_DICT_HASH_T_GET_HASHFRAG(HASH) ( ((uint_least32_t)((HASH) >> 32u)) & GUF_DICT_KV_META_HASHFRAG_MASK )
-    #elif GUF_DICT_HASH_T_MAX == UINT32_MAX
+    #elif GUF_DICT_HASH_T_MAX == GUF_UINT32_MAX
        #define GUF_DICT_HASH_T_GET_HASHFRAG(HASH) ( (HASH) & GUF_DICT_KV_META_HASHFRAG_MASK )
    #else
        #error "guf_dict: invalid hash size (should not happen)"
@ -447,10 +447,11 @@ static inline size_t GUF_CAT(GUF_DICT_NAME, _probe_offset_)(size_t probe_len)
        return probe_len; // 1, 2, 3, 4, 5, ...
    #else
        /*
            Quadratic probing:
            Guaranteed to visit each index once for capacities which are powers of two. 
            cf. https://fgiesen.wordpress.com/2015/02/22/triangular-numbers-mod-2n/ (last-retrieved 2024-07-29)
        */ 
-       return probe_len * (probe_len + 1) / 2; // 1, 3, 6, 10, 15, 21 ... (starting from probe_len == 1)
+       return probe_len * (probe_len + 1u) / 2u; // 1, 3, 6, 10, 15, 21 ... (starting from probe_len == 1)
    #endif
 }
--- a/src/guf_hash.h
+++ b/src/guf_hash.h
@ -19,29 +19,22 @@
 */ 
 #define GUF_HASH32_INIT UINT32_C(2166136261)
-#ifdef UINT64_MAX
+#define GUF_HASH64_INIT UINT64_C(14695981039346656037)
    #define GUF_HASH64_INIT UINT64_C(14695981039346656037)
 #endif
-GUF_HASH_KWRDS uint32_t guf_hash32(const void *data, ptrdiff_t num_bytes, uint32_t hash); // FNV-1a (32 bit)
+GUF_HASH_KWRDS uint_fast32_t guf_hash32(const void *data, ptrdiff_t num_bytes, uint_fast32_t hash); // FNV-1a (32 bit)
-#ifdef UINT64_MAX
+GUF_HASH_KWRDS uint_fast64_t guf_hash64(const void *data, ptrdiff_t num_bytes, uint_fast64_t hash); // FNV-1a (64 bit)
    GUF_HASH_KWRDS uint64_t guf_hash64(const void *data, ptrdiff_t num_bytes, uint64_t hash); // FNV-1a (64 bit)
 #endif
 #ifdef GUF_HASH_32_BIT
-    typedef uint32_t guf_hash_size_t;
+    typedef uint_fast32_t guf_hash_size_t;
    #define GUF_HASH_INIT GUF_HASH32_INIT
-    #define GUF_HASH_MAX UINT32_MAX
+    #define GUF_HASH_MAX GUF_UINT32_MAX
    static inline guf_hash_size_t guf_hash(const void *data, ptrdiff_t num_bytes, guf_hash_size_t hash) {
        return guf_hash32(data, num_bytes, hash);
    }
 #else
-    #ifndef UINT64_MAX
+    typedef uint_fast64_t guf_hash_size_t;
        #error "guf_hash.h: Platform does not support uint64_t (define GUF_HASH_32_BIT to fix)"
    #endif
    typedef uint64_t guf_hash_size_t;
    #define GUF_HASH_INIT GUF_HASH64_INIT
-    #define GUF_HASH_MAX UINT64_MAX
+    #define GUF_HASH_MAX GUF_UINT64_MAX
    static inline guf_hash_size_t guf_hash(const void *data, ptrdiff_t num_bytes, guf_hash_size_t hash) {
        return guf_hash64(data, num_bytes, hash);
    }
@ -53,36 +46,37 @@ GUF_HASH_KWRDS uint32_t guf_hash32(const void *data, ptrdiff_t num_bytes, uint32
 #include "guf_assert.h"
-GUF_HASH_KWRDS uint32_t guf_hash32(const void *data, ptrdiff_t num_bytes, uint32_t hash)
+GUF_HASH_KWRDS uint_fast32_t guf_hash32(const void *data, ptrdiff_t num_bytes, uint_fast32_t hash)
 {
    hash = GUF_UWRAP_32(hash);
    GUF_ASSERT_RELEASE(data);
    GUF_ASSERT_RELEASE(num_bytes >= 0);
    const unsigned char *data_bytes = (const unsigned char*)data; // This does not break strict-aliasing rules I think...
-    const uint32_t FNV_32_PRIME = UINT32_C(16777619);
+    const uint_fast32_t FNV_32_PRIME = UINT32_C(16777619);
    for (ptrdiff_t i = 0; i < num_bytes; ++i) {
-        hash ^= 1u * data_bytes[i];
+        hash = GUF_UWRAP_32(1u * hash ^ data_bytes[i]);
-        hash *= 1u * FNV_32_PRIME;
+        hash = GUF_UWRAP_32(1u * hash * FNV_32_PRIME);
    }
    return hash;
 }
-#ifdef UINT64_MAX
+GUF_HASH_KWRDS uint_fast64_t guf_hash64(const void *data, ptrdiff_t num_bytes, uint_fast64_t hash)
-    GUF_HASH_KWRDS uint64_t guf_hash64(const void *data, ptrdiff_t num_bytes, uint64_t hash)
+{
-    {
+    hash = GUF_UWRAP_64(hash);
    GUF_ASSERT_RELEASE(data);
    GUF_ASSERT_RELEASE(num_bytes >= 0);
    const unsigned char *data_bytes = (const unsigned char*)data; // This does not break strict-aliasing rules I think...
-        const uint64_t FNV_64_PRIME = UINT64_C(1099511628211);
+    const uint_fast64_t FNV_64_PRIME = UINT64_C(1099511628211);
    for (ptrdiff_t i = 0; i < num_bytes; ++i) {
-            hash ^= 1u * data_bytes[i];
+        hash = GUF_UWRAP_64(1u * hash ^ data_bytes[i]);
-            hash *= 1u * FNV_64_PRIME;
+        hash = GUF_UWRAP_64(1u * hash * FNV_64_PRIME);
    }
    return hash;
-    }
+}
 #endif
 #undef GUF_HASH_IMPL
 #undef GUF_HASH_IMPL_STATIC
 #endif /* endif GUF_IMPL/GUF_IMPL_STATIC */
 #undef GUF_HASH_KWRDS
--- a/src/guf_math.h
+++ b/src/guf_math.h
@ -15,10 +15,6 @@
 #define GUF_MAX_F32_LT_ONE (1.f - FLT_EPSILON/FLT_RADIX)
 #define GUF_MAX_F64_LT_ONE (1.0 - DBL_EPSILON/FLT_RADIX)
 // Rotate left.
 static inline uint64_t guf_rotl_u64(uint64_t x, int k) {return (1u*x << k) | (1u*x >> (64 - k));}
 static inline uint32_t guf_rotl_u32(uint32_t x, int k) {return (1u*x << k) | (1u*x >> (32 - k));}
 // Typesafe unsigned integer wrapping functions (generated with libguf/tools/intwrap-gen.py)
 static inline uint_least8_t guf_wrap8_uint_least8_t(uint_least8_t a)         { return a & GUF_UINT8_MAX; }
 static inline uint_fast8_t  guf_wrap8_uint_fast8_t(uint_fast8_t a)           { return a & GUF_UINT8_MAX; }
@ -37,13 +33,50 @@ static inline unsigned short     guf_wrap16_ushort(unsigned short a)         { r
 static inline unsigned long      guf_wrap32_ulong(unsigned long a)           { return a & GUF_UINT32_MAX; } // unsigned long:      >= 32 bits
 static inline unsigned long long guf_wrap64_ulong_long(unsigned long long a) { return a & GUF_UINT64_MAX; } // unsigned long long: >= 64 bits
-#define GUF_UWRAP_8(UINT)  ( (UINT) & GUF_UINT8_MAX  ) 
+// Rotate left.
-#define GUF_UWRAP_16(UINT) ( (UINT) & GUF_UINT16_MAX ) 
+#ifdef UINT32_MAX
-#define GUF_UWRAP_32(UINT) ( (UINT) & GUF_UINT32_MAX ) 
+    static inline uint32_t guf_rotl_u32(uint32_t x, int k) 
-#define GUF_UWRAP_64(UINT) ( (UINT) & GUF_UINT64_MAX ) 
+    { 
        GUF_ASSERT(k > 0);
        return (1u*x << k) | (1u*x >> (32 - k)); 
    }
 #endif
 #ifdef UINT64_MAX
    static inline uint64_t guf_rotl_u64(uint64_t x, int k) 
    { 
        GUF_ASSERT(k > 0);
        return (1u*x << k) | (1u*x >> (64 - k)); 
    }
 #endif
 static inline uint_fast32_t guf_rotl32_uint_fast32_t(uint_fast32_t x, int k)
 { 
    GUF_ASSERT(k > 0);
    x = guf_wrap32_uint_fast32_t(x);  
    return guf_wrap32_uint_fast32_t( (1u*x << k) | (1u*x >> (32 - k)) );
 }
 static inline uint_fast64_t guf_rotl64_uint_fast64_t(uint_fast64_t x, int k)
 { 
    GUF_ASSERT(k > 0);
    x = guf_wrap64_uint_fast64_t(x);  
    return guf_wrap64_uint_fast64_t( (1u*x << k) | (1u*x >> (64 - k)) );
 }
 static inline unsigned long guf_rotl32_ulong(unsigned long x, int k)
 { 
    GUF_ASSERT(k > 0);
    x = guf_wrap32_ulong(x);  
    return guf_wrap32_ulong( (x << k) | (x >> (32 - k)) );
 } 
 static inline unsigned long long guf_rotl64_ulong_long(unsigned long long x, int k) 
 { 
    GUF_ASSERT(k > 0);
    x = guf_wrap64_ulong_long(x);  
    return guf_wrap64_ulong_long( (x << k) | (x >> (64 - k)) );
 } 
 // Signed min, max, clamp functions (generated with libguf/tools/min_max_clamp-gen.py)
 static inline char guf_min_char(char a, char b) { return a < b ? a : b; }
 static inline char guf_max_char(char a, char b) { return a > b ? a : b; }
 static inline char guf_clamp_char(char x, char min, char max) { if (x < min) {return min;} if (x > max) {return max;} return x; }
@ -60,26 +93,26 @@ static inline long long guf_min_long_long(long long a, long long b) { return a <
 static inline long long guf_max_long_long(long long a, long long b) { return a > b ? a : b; }
 static inline long long guf_clamp_long_long(long long x, long long min, long long max) { if (x < min) {return min;} if (x > max) {return max;} return x; }
 static inline int8_t guf_min_i8(int8_t a, int8_t b) { return a < b ? a : b; }
 static inline int8_t guf_max_i8(int8_t a, int8_t b) { return a > b ? a : b; }
 static inline int8_t guf_clamp_i8(int8_t x, int8_t min, int8_t max) { if (x < min) {return min;} if (x > max) {return max;} return x; }
 static inline int16_t guf_min_i16(int16_t a, int16_t b) { return a < b ? a : b; }
 static inline int16_t guf_max_i16(int16_t a, int16_t b) { return a > b ? a : b; }
 static inline int16_t guf_clamp_i16(int16_t x, int16_t min, int16_t max) { if (x < min) {return min;} if (x > max) {return max;} return x; }
 static inline int32_t guf_min_i32(int32_t a, int32_t b) { return a < b ? a : b; }
 static inline int32_t guf_max_i32(int32_t a, int32_t b) { return a > b ? a : b; }
 static inline int32_t guf_clamp_i32(int32_t x, int32_t min, int32_t max) { if (x < min) {return min;} if (x > max) {return max;} return x; }
 static inline int64_t guf_min_i64(int64_t a, int64_t b) { return a < b ? a : b; }
 static inline int64_t guf_max_i64(int64_t a, int64_t b) { return a > b ? a : b; }
 static inline int64_t guf_clamp_i64(int64_t x, int64_t min, int64_t max) { if (x < min) {return min;} if (x > max) {return max;} return x; }
 static inline ptrdiff_t guf_min_ptrdiff_t(ptrdiff_t a, ptrdiff_t b) { return a < b ? a : b; }
 static inline ptrdiff_t guf_max_ptrdiff_t(ptrdiff_t a, ptrdiff_t b) { return a > b ? a : b; }
 static inline ptrdiff_t guf_clamp_ptrdiff_t(ptrdiff_t x, ptrdiff_t min, ptrdiff_t max) { if (x < min) {return min;} if (x > max) {return max;} return x; }
 static inline int_fast8_t guf_min_i8_fast(int_fast8_t a, int_fast8_t b) { return a < b ? a : b; }
 static inline int_fast8_t guf_max_i8_fast(int_fast8_t a, int_fast8_t b) { return a > b ? a : b; }
 static inline int_fast8_t guf_clamp_i8_fast(int_fast8_t x, int_fast8_t min, int_fast8_t max) { if (x < min) {return min;} if (x > max) {return max;} return x; }
 static inline int_fast16_t guf_min_i16_fast(int_fast16_t a, int_fast16_t b) { return a < b ? a : b; }
 static inline int_fast16_t guf_max_i16_fast(int_fast16_t a, int_fast16_t b) { return a > b ? a : b; }
 static inline int_fast16_t guf_clamp_i16_fast(int_fast16_t x, int_fast16_t min, int_fast16_t max) { if (x < min) {return min;} if (x > max) {return max;} return x; }
 static inline int_fast32_t guf_min_i32_fast(int_fast32_t a, int_fast32_t b) { return a < b ? a : b; }
 static inline int_fast32_t guf_max_i32_fast(int_fast32_t a, int_fast32_t b) { return a > b ? a : b; }
 static inline int_fast32_t guf_clamp_i32_fast(int_fast32_t x, int_fast32_t min, int_fast32_t max) { if (x < min) {return min;} if (x > max) {return max;} return x; }
 static inline int_fast64_t guf_min_i64_fast(int_fast64_t a, int_fast64_t b) { return a < b ? a : b; }
 static inline int_fast64_t guf_max_i64_fast(int_fast64_t a, int_fast64_t b) { return a > b ? a : b; }
 static inline int_fast64_t guf_clamp_i64_fast(int_fast64_t x, int_fast64_t min, int_fast64_t max) { if (x < min) {return min;} if (x > max) {return max;} return x; }
 static inline float guf_min_f32(float a, float b) { return a < b ? a : b; }
 static inline float guf_max_f32(float a, float b) { return a > b ? a : b; }
 static inline float guf_clamp_f32(float x, float min, float max) { if (x < min) {return min;} if (x > max) {return max;} return x; }
@ -88,8 +121,31 @@ static inline double guf_min_f64(double a, double b) { return a < b ? a : b; }
 static inline double guf_max_f64(double a, double b) { return a > b ? a : b; }
 static inline double guf_clamp_f64(double x, double min, double max) { if (x < min) {return min;} if (x > max) {return max;} return x; }
-// Unsigned min, max, clamp functions (generated with libguf/tools/min_max_clamp-gen.py)
+#ifdef INT8_MAX
 static inline int8_t guf_min_i8(int8_t a, int8_t b) { return a < b ? a : b; }
 static inline int8_t guf_max_i8(int8_t a, int8_t b) { return a > b ? a : b; }
 static inline int8_t guf_clamp_i8(int8_t x, int8_t min, int8_t max) { if (x < min) {return min;} if (x > max) {return max;} return x; }
 #endif
 #ifdef INT16_MAX
 static inline int16_t guf_min_i16(int16_t a, int16_t b) { return a < b ? a : b; }
 static inline int16_t guf_max_i16(int16_t a, int16_t b) { return a > b ? a : b; }
 static inline int16_t guf_clamp_i16(int16_t x, int16_t min, int16_t max) { if (x < min) {return min;} if (x > max) {return max;} return x; }
 #endif
 #ifdef INT32_MAX
 static inline int32_t guf_min_i32(int32_t a, int32_t b) { return a < b ? a : b; }
 static inline int32_t guf_max_i32(int32_t a, int32_t b) { return a > b ? a : b; }
 static inline int32_t guf_clamp_i32(int32_t x, int32_t min, int32_t max) { if (x < min) {return min;} if (x > max) {return max;} return x; }
 #endif
 #ifdef INT64_MAX
 static inline int64_t guf_min_i64(int64_t a, int64_t b) { return a < b ? a : b; }
 static inline int64_t guf_max_i64(int64_t a, int64_t b) { return a > b ? a : b; }
 static inline int64_t guf_clamp_i64(int64_t x, int64_t min, int64_t max) { if (x < min) {return min;} if (x > max) {return max;} return x; }
 #endif
 // Unsigned min, max, clamp functions (generated with libguf/tools/min_max_clamp-gen.py)
 static inline unsigned char guf_min_uchar(unsigned char a, unsigned char b) { return a < b ? a : b; }
 static inline unsigned char guf_max_uchar(unsigned char a, unsigned char b) { return a > b ? a : b; }
 static inline unsigned char guf_clamp_uchar(unsigned char x, unsigned char min, unsigned char max) { if (x < min) {return min;} if (x > max) {return max;} return x; }
@ -106,52 +162,104 @@ static inline unsigned long long guf_min_ulong_long(unsigned long long a, unsign
 static inline unsigned long long guf_max_ulong_long(unsigned long long a, unsigned long long b) { return a > b ? a : b; }
 static inline unsigned long long guf_clamp_ulong_long(unsigned long long x, unsigned long long min, unsigned long long max) { if (x < min) {return min;} if (x > max) {return max;} return x; }
 static inline uint8_t guf_min_u8(uint8_t a, uint8_t b) { return a < b ? a : b; }
 static inline uint8_t guf_max_u8(uint8_t a, uint8_t b) { return a > b ? a : b; }
 static inline uint8_t guf_clamp_u8(uint8_t x, uint8_t min, uint8_t max) { if (x < min) {return min;} if (x > max) {return max;} return x; }
 static inline uint16_t guf_min_u16(uint16_t a, uint16_t b) { return a < b ? a : b; }
 static inline uint16_t guf_max_u16(uint16_t a, uint16_t b) { return a > b ? a : b; }
 static inline uint16_t guf_clamp_u16(uint16_t x, uint16_t min, uint16_t max) { if (x < min) {return min;} if (x > max) {return max;} return x; }
 static inline uint32_t guf_min_u32(uint32_t a, uint32_t b) { return a < b ? a : b; }
 static inline uint32_t guf_max_u32(uint32_t a, uint32_t b) { return a > b ? a : b; }
 static inline uint32_t guf_clamp_u32(uint32_t x, uint32_t min, uint32_t max) { if (x < min) {return min;} if (x > max) {return max;} return x; }
 static inline uint64_t guf_min_u64(uint64_t a, uint64_t b) { return a < b ? a : b; }
 static inline uint64_t guf_max_u64(uint64_t a, uint64_t b) { return a > b ? a : b; }
 static inline uint64_t guf_clamp_u64(uint64_t x, uint64_t min, uint64_t max) { if (x < min) {return min;} if (x > max) {return max;} return x; }
 static inline size_t guf_min_size_t(size_t a, size_t b) { return a < b ? a : b; }
 static inline size_t guf_max_size_t(size_t a, size_t b) { return a > b ? a : b; }
 static inline size_t guf_clamp_size_t(size_t x, size_t min, size_t max) { if (x < min) {return min;} if (x > max) {return max;} return x; }
 static inline uint_fast8_t guf_min_u8_fast(uint_fast8_t a, uint_fast8_t b) { return a < b ? a : b; }
 static inline uint_fast8_t guf_max_u8_fast(uint_fast8_t a, uint_fast8_t b) { return a > b ? a : b; }
 static inline uint_fast8_t guf_clamp_u8_fast(uint_fast8_t x, uint_fast8_t min, uint_fast8_t max) { if (x < min) {return min;} if (x > max) {return max;} return x; }
 static inline uint_fast16_t guf_min_u16_fast(uint_fast16_t a, uint_fast16_t b) { return a < b ? a : b; }
 static inline uint_fast16_t guf_max_u16_fast(uint_fast16_t a, uint_fast16_t b) { return a > b ? a : b; }
 static inline uint_fast16_t guf_clamp_u16_fast(uint_fast16_t x, uint_fast16_t min, uint_fast16_t max) { if (x < min) {return min;} if (x > max) {return max;} return x; }
 static inline uint_fast32_t guf_min_u32_fast(uint_fast32_t a, uint_fast32_t b) { return a < b ? a : b; }
 static inline uint_fast32_t guf_max_u32_fast(uint_fast32_t a, uint_fast32_t b) { return a > b ? a : b; }
 static inline uint_fast32_t guf_clamp_u32_fast(uint_fast32_t x, uint_fast32_t min, uint_fast32_t max) { if (x < min) {return min;} if (x > max) {return max;} return x; }
 static inline uint_fast64_t guf_min_u64_fast(uint_fast64_t a, uint_fast64_t b) { return a < b ? a : b; }
 static inline uint_fast64_t guf_max_u64_fast(uint_fast64_t a, uint_fast64_t b) { return a > b ? a : b; }
 static inline uint_fast64_t guf_clamp_u64_fast(uint_fast64_t x, uint_fast64_t min, uint_fast64_t max) { if (x < min) {return min;} if (x > max) {return max;} return x; }
 #ifdef UINT8_MAX
 static inline uint8_t guf_min_u8(uint8_t a, uint8_t b) { return a < b ? a : b; }
 static inline uint8_t guf_max_u8(uint8_t a, uint8_t b) { return a > b ? a : b; }
 static inline uint8_t guf_clamp_u8(uint8_t x, uint8_t min, uint8_t max) { if (x < min) {return min;} if (x > max) {return max;} return x; }
 #endif
 #ifdef UINT16_MAX
 static inline uint16_t guf_min_u16(uint16_t a, uint16_t b) { return a < b ? a : b; }
 static inline uint16_t guf_max_u16(uint16_t a, uint16_t b) { return a > b ? a : b; }
 static inline uint16_t guf_clamp_u16(uint16_t x, uint16_t min, uint16_t max) { if (x < min) {return min;} if (x > max) {return max;} return x; }
 #endif
 #ifdef UINT32_MAX
 static inline uint32_t guf_min_u32(uint32_t a, uint32_t b) { return a < b ? a : b; }
 static inline uint32_t guf_max_u32(uint32_t a, uint32_t b) { return a > b ? a : b; }
 static inline uint32_t guf_clamp_u32(uint32_t x, uint32_t min, uint32_t max) { if (x < min) {return min;} if (x > max) {return max;} return x; }
 #endif
 #ifdef UINT64_MAX
 static inline uint64_t guf_min_u64(uint64_t a, uint64_t b) { return a < b ? a : b; }
 static inline uint64_t guf_max_u64(uint64_t a, uint64_t b) { return a > b ? a : b; }
 static inline uint64_t guf_clamp_u64(uint64_t x, uint64_t min, uint64_t max) { if (x < min) {return min;} if (x > max) {return max;} return x; }
 #endif
 // abs functions with signed result (can fail/panic for abs(INT_TYPE_MIN) for platforms with two's complement signed ints; C2X for example guarantees two's complement)
-static inline int       guf_abs_int(int x)             {if (x >= 0) {return x;} GUF_ASSERT_RELEASE(-INT_MAX     == INT_MIN     || x > INT_MIN);     return -x;} // I would not drink that...
+// static inline int       guf_abs_int(int x)             {if (x >= 0) {return x;} GUF_ASSERT_RELEASE(-INT_MAX     == INT_MIN     || x > INT_MIN);     return -x;} // I would not drink that...
-static inline int8_t    guf_abs_i8 (int8_t x)          {if (x >= 0) {return x;} GUF_ASSERT_RELEASE(-INT8_MAX    == INT8_MIN    || x > INT8_MIN);    return -x;}
+// static inline int8_t    guf_abs_i8 (int8_t x)          {if (x >= 0) {return x;} GUF_ASSERT_RELEASE(-INT8_MAX    == INT8_MIN    || x > INT8_MIN);    return -x;}
-static inline int16_t   guf_abs_i16(int16_t x)         {if (x >= 0) {return x;} GUF_ASSERT_RELEASE(-INT16_MAX   == INT16_MIN   || x > INT16_MIN);   return -x;}
+// static inline int16_t   guf_abs_i16(int16_t x)         {if (x >= 0) {return x;} GUF_ASSERT_RELEASE(-INT16_MAX   == INT16_MIN   || x > INT16_MIN);   return -x;}
-static inline int32_t   guf_abs_i32(int32_t x)         {if (x >= 0) {return x;} GUF_ASSERT_RELEASE(-INT32_MAX   == INT32_MIN   || x > INT32_MIN);   return -x;}
+// static inline int32_t   guf_abs_i32(int32_t x)         {if (x >= 0) {return x;} GUF_ASSERT_RELEASE(-INT32_MAX   == INT32_MIN   || x > INT32_MIN);   return -x;}
-static inline int64_t   guf_abs_i64(int64_t x)         {if (x >= 0) {return x;} GUF_ASSERT_RELEASE(-INT64_MAX   == INT64_MIN   || x > INT64_MIN);   return -x;}
+// static inline int64_t   guf_abs_i64(int64_t x)         {if (x >= 0) {return x;} GUF_ASSERT_RELEASE(-INT64_MAX   == INT64_MIN   || x > INT64_MIN);   return -x;}
-static inline ptrdiff_t guf_abs_ptrdiff(ptrdiff_t x)   {if (x >= 0) {return x;} GUF_ASSERT_RELEASE(-PTRDIFF_MAX == PTRDIFF_MIN || x > PTRDIFF_MIN); return -x;}
+// static inline ptrdiff_t guf_abs_ptrdiff(ptrdiff_t x)   {if (x >= 0) {return x;} GUF_ASSERT_RELEASE(-PTRDIFF_MAX == PTRDIFF_MIN || x > PTRDIFF_MIN); return -x;}
 // abs functions with unsigned result functions (cannot fail)
 static inline unsigned  guf_uabs_int(int x)                          {if (x >= 0) {return x;} else if (x == INT_MIN     && -INT_MAX     != INT_MIN)     {return (unsigned)INT_MAX + 1u;}             else {return -x;}}
-static inline uint8_t   guf_uabs_i8(int8_t x)           {if (x >= 0) {return x;} else if (x == INT8_MIN    && -INT8_MAX    != INT8_MIN)    {return (uint8_t)INT8_MAX   + 1u;} else {return -x;}}
+static inline unsigned long guf_uabs_long(long x)                    {if (x >= 0) {return x;} else if (x == LONG_MIN    && -LONG_MAX    != LONG_MIN)    {return (unsigned long)LONG_MAX + 1u;}       else {return -x;}}
-static inline uint16_t  guf_uabs_i16(int16_t x)         {if (x >= 0) {return x;} else if (x == INT16_MIN   && -INT16_MAX   != INT16_MIN)   {return (uint16_t)INT16_MAX + 1u;} else {return -x;}}
+static inline unsigned long long guf_uabs_long_long(long long x)     {if (x >= 0) {return x;} else if (x == LLONG_MIN   && -LLONG_MAX   != LONG_MIN)    {return (unsigned long long)LLONG_MAX + 1u;} else {return -x;}}
 static inline uint32_t  guf_uabs_i32(int32_t x)         {if (x >= 0) {return x;} else if (x == INT32_MIN   && -INT32_MAX   != INT32_MIN)   {return (uint32_t)INT32_MAX + 1u;} else {return -x;}}
 static inline uint64_t  guf_uabs_i64(int64_t x)         {if (x >= 0) {return x;} else if (x == INT64_MIN   && -INT64_MAX   != INT64_MIN)   {return (uint64_t)INT64_MAX + 1u;} else {return -x;}}
 static inline size_t    guf_uabs_ptrdiff_t(ptrdiff_t x)              {if (x >= 0) {return x;} else if (x == PTRDIFF_MIN && -PTRDIFF_MAX != PTRDIFF_MIN) {return (size_t)PTRDIFF_MAX + 1u;}           else {return -x;}}
 #if defined(UINT8_MAX) && defined(INT8_MAX)
    static inline uint8_t  guf_uabs_i8(int8_t x)   {if (x >= 0) {return x;} else if (x == INT8_MIN && -INT8_MAX   != INT8_MIN) {return (uint8_t)INT8_MAX   + 1u;} else {return -x;}}
 #endif
 #if defined(UINT16_MAX) && defined(INT16_MAX)
    static inline uint16_t guf_uabs_i16(int16_t x) {if (x >= 0) {return x;} else if (x == INT16_MIN && -INT16_MAX != INT16_MIN) {return (uint16_t)INT16_MAX + 1u;} else {return -x;}}
 #endif
 #if defined(UINT32_MAX) && defined(INT32_MAX)
    static inline uint32_t guf_uabs_i32(int32_t x) {if (x >= 0) {return x;} else if (x == INT32_MIN && -INT32_MAX != INT32_MIN) {return (uint32_t)INT32_MAX + 1u;} else {return -x;}}
 #endif
 #if defined(UINT64_MAX) && defined(INT64_MAX)
    static inline uint64_t guf_uabs_i64(int64_t x) {if (x >= 0) {return x;} else if (x == INT64_MIN && -INT64_MAX != INT64_MIN) {return (uint64_t)INT64_MAX + 1u;} else {return -x;}}
 #endif
 // absdiff functions with unsigned result (cannot fail)
 static inline unsigned char       guf_absdiff_char(char a, char b)                 {return a > b ? (unsigned char)a - (unsigned char)b : (unsigned char)b - (unsigned char)a;}
 static inline unsigned short      guf_absdiff_short(short a, short b)              {return a > b ? (unsigned short)a - (unsigned short)b : (unsigned short)b - (unsigned short)a;}
 static inline unsigned            guf_absdiff_int(int a, int b)                    {return a > b ? (unsigned)a - (unsigned)b : (unsigned)b - (unsigned)a;}
-static inline uint8_t   guf_absdiff_i8(int8_t a, int8_t b)              {return a > b ?  (uint8_t)a -  (uint8_t)b :  (uint8_t)b -  (uint8_t)a;}
+static inline unsigned long       guf_absdiff_long(long a, long b)                 {return a > b ? (unsigned long)a - (unsigned long)b : (unsigned long)b - (unsigned long)a;}
-static inline uint16_t  guf_absdiff_i16(int16_t a, int16_t b)           {return a > b ? (uint16_t)a - (uint16_t)b : (uint16_t)b - (uint16_t)a;}
+static inline unsigned long long  guf_absdiff_long_long(long long a, long long b)  {return a > b ? (unsigned long long)a - (unsigned long long)b : (unsigned long long)b - (unsigned long long)a;}
 static inline uint32_t  guf_absdiff_i32(int32_t a, int32_t b)           {return a > b ? (uint32_t)a - (uint32_t)b : (uint32_t)b - (uint32_t)a;}
 static inline uint64_t  guf_absdiff_i64(int64_t a, int64_t b)           {return a > b ? (uint64_t)a - (uint64_t)b : (uint64_t)b - (uint64_t)a;}
 static inline size_t              guf_absdiff_ptrdiff_t(ptrdiff_t a, ptrdiff_t b) {return a > b ?   (size_t)a -   (size_t)b :   (size_t)b -   (size_t)a;}
 static inline uint_fast8_t  guf_absdiff_int_fast8_t(int_fast8_t a, int_fast8_t b)    {return a > b ? GUF_UWRAP_8(  (uint_fast8_t)a -  (uint_fast8_t)b) : GUF_UWRAP_8(  (uint_fast8_t)b -  (uint_fast8_t)a);}
 static inline uint_fast16_t guf_absdiff_int_fast16_t(int_fast16_t a, int_fast16_t b) {return a > b ? GUF_UWRAP_16((uint_fast16_t)a - (uint_fast16_t)b) : GUF_UWRAP_16((uint_fast16_t)b - (uint_fast16_t)a);}
 static inline uint_fast32_t guf_absdiff_int_fast32_t(int_fast32_t a, int_fast32_t b) {return a > b ? GUF_UWRAP_32((uint_fast32_t)a - (uint_fast32_t)b) : GUF_UWRAP_32((uint_fast32_t)b - (uint_fast32_t)a);}
 static inline uint_fast64_t guf_absdiff_int_fast64_t(int_fast64_t a, int_fast64_t b) {return a > b ? GUF_UWRAP_64((uint_fast64_t)a - (uint_fast64_t)b) : GUF_UWRAP_64((uint_fast64_t)b - (uint_fast64_t)a);}
 #if defined(UINT8_MAX) && defined(INT8_MAX)
    static inline uint8_t  guf_absdiff_i8(int8_t a, int8_t b)    {return a > b ?  (uint8_t)a -  (uint8_t)b :  (uint8_t)b -  (uint8_t)a;}
 #endif
 #if defined(UINT16_MAX) && defined(INT16_MAX)
    static inline uint16_t guf_absdiff_i16(int16_t a, int16_t b) {return a > b ? (uint16_t)a - (uint16_t)b : (uint16_t)b - (uint16_t)a;}
 #endif
 #if defined(UINT32_MAX) && defined(INT32_MAX)
    static inline uint32_t guf_absdiff_i32(int32_t a, int32_t b) {return a > b ? (uint32_t)a - (uint32_t)b : (uint32_t)b - (uint32_t)a;}
 #endif
 #if defined(UINT64_MAX) && defined(INT64_MAX)
    static inline uint64_t guf_absdiff_i64(int64_t a, int64_t b) {return a > b ? (uint64_t)a - (uint64_t)b : (uint64_t)b - (uint64_t)a;}
 #endif
 static inline bool guf_add_is_overflow_size_t(size_t a, size_t b)
 {
@ -186,12 +294,24 @@ static inline bool guf_size_calc_safe(ptrdiff_t count, ptrdiff_t sizeof_elem, pt
 // cf. https://graphics.stanford.edu/~seander/bithacks.html#DetermineIfPowerOf2 (last-retrieved 2025-03-19)
-static inline bool guf_is_pow2_u8(uint8_t x)    { return x && !(x & (x - 1)); }
+static inline bool guf_is_pow2_uchar(unsigned char x)           { return x && !(x & (x - 1)); }
-static inline bool guf_is_pow2_u16(uint16_t x)  { return x && !(x & (x - 1)); }
+static inline bool guf_is_pow2_ushort(unsigned short x)         { return x && !(x & (x - 1)); }
-static inline bool guf_is_pow2_u32(uint32_t x)  { return x && !(x & (x - 1)); }
+static inline bool guf_is_pow2_unsigned(unsigned x)             { return x && !(x & (x - 1)); }
-static inline bool guf_is_pow2_u64(uint64_t x)  { return x && !(x & (x - 1)); }
+static inline bool guf_is_pow2_ulong(unsigned long x)           { return x && !(x & (x - 1)); }
 static inline bool guf_is_pow2_ulong_long(unsigned long long x) { return x && !(x & (x - 1)); }
 static inline bool guf_is_pow2_size_t(size_t x)                 { return x && !(x & (x - 1)); }
-
+#ifdef UINT8_MAX
    static inline bool guf_is_pow2_u8(uint8_t x)                { return x && !(x & (x - 1)); }
 #endif
 #ifdef UINT16_MAX
    static inline bool guf_is_pow2_u16(uint16_t x)              { return x && !(x & (x - 1)); }
 #endif
 #ifdef UINT32_MAX
    static inline bool guf_is_pow2_u32(uint32_t x)              { return x && !(x & (x - 1)); }
 #endif
 #if UINT64_MAX
    static inline bool guf_is_pow2_u64(uint64_t x)              { return x && !(x & (x - 1)); }
 #endif
 static bool guf_nearly_zero_f32(float x, float eps)   {return fabsf(x) <= eps;}
 static bool guf_nearly_one_f32(float x, float eps)    {return fabsf(x - 1) <= eps;}
--- a/src/guf_math_ckdint.h
+++ b/src/guf_math_ckdint.h
--- a/src/guf_rand.h
+++ b/src/guf_rand.h
--- a/src/guf_str.h
+++ b/src/guf_str.h
@ -94,8 +94,8 @@ GUF_STR_KWRDS int guf_str_view_cmp(const void *str_view_a, const void *str_view_
 // Hash functions.
 GUF_STR_KWRDS guf_hash_size_t guf_str_view_hash(const guf_str_view *sv);
-GUF_STR_KWRDS uint64_t guf_str_view_hash64(const guf_str_view *sv);
+GUF_STR_KWRDS uint_fast64_t guf_str_view_hash64(const guf_str_view *sv);
-GUF_STR_KWRDS uint32_t guf_str_view_hash32(const guf_str_view *sv);
+GUF_STR_KWRDS uint_fast32_t guf_str_view_hash32(const guf_str_view *sv);
 // Return a new guf_str_view corresponding to the substring with leading/trailing ascii-whitespace chars removed from the left/right
 GUF_STR_KWRDS guf_str_view guf_str_view_trim_left_ascii(guf_str_view sv);
@ -151,8 +151,8 @@ GUF_STR_KWRDS int guf_str_cmp(const guf_str *a, const guf_str *b);
 // Hash-functions.
 GUF_STR_KWRDS guf_hash_size_t guf_str_hash(const guf_str *str);
-GUF_STR_KWRDS uint64_t guf_str_hash64(const guf_str *str);
+GUF_STR_KWRDS uint_fast64_t guf_str_hash64(const guf_str *str);
-GUF_STR_KWRDS uint32_t guf_str_hash32(const guf_str *str);
+GUF_STR_KWRDS uint_fast32_t guf_str_hash32(const guf_str *str);
 // Reserve at least min_capacity characters (excluding the null-terminator) (try to double the current capacity first; if that's not at least min_capacity, set the new capacity to min_capacity instead).
 GUF_STR_KWRDS guf_str *guf_str_try_reserve(guf_str *str, ptrdiff_t min_capacity, guf_err *err); 
@ -1196,13 +1196,13 @@ GUF_STR_KWRDS guf_hash_size_t guf_str_hash(const guf_str *str)
    return guf_str_view_hash(&(guf_str_view){.str = guf_str_const_cstr(str), .len = guf_str_len(str)});
 }
-GUF_STR_KWRDS uint64_t guf_str_hash64(const guf_str *str)
+GUF_STR_KWRDS uint_fast64_t guf_str_hash64(const guf_str *str)
 {
    GUF_ASSERT(guf_str_is_valid(str));
    return guf_str_view_hash64(&(guf_str_view){.str = guf_str_const_cstr(str), .len = guf_str_len(str)});
 }
-GUF_STR_KWRDS uint32_t guf_str_hash32(const guf_str *str)
+GUF_STR_KWRDS uint_fast32_t guf_str_hash32(const guf_str *str)
 {
    GUF_ASSERT(guf_str_is_valid(str));
    return guf_str_view_hash32(&(guf_str_view){.str = guf_str_const_cstr(str), .len = guf_str_len(str)});
@ -1457,7 +1457,7 @@ GUF_STR_KWRDS guf_hash_size_t guf_str_view_hash(const guf_str_view *sv)
    return guf_hash(sv->str, sv->len, GUF_HASH_INIT);
 }
-GUF_STR_KWRDS uint64_t guf_str_view_hash64(const guf_str_view *sv)
+GUF_STR_KWRDS uint_fast64_t guf_str_view_hash64(const guf_str_view *sv)
 {
    GUF_ASSERT(sv);
    if (!sv->str || sv->len <= 0) {
@ -1466,7 +1466,7 @@ GUF_STR_KWRDS uint64_t guf_str_view_hash64(const guf_str_view *sv)
    return guf_hash64(sv->str, sv->len, GUF_HASH64_INIT);
 }
-GUF_STR_KWRDS uint32_t guf_str_view_hash32(const guf_str_view *sv)
+GUF_STR_KWRDS uint_fast32_t guf_str_view_hash32(const guf_str_view *sv)
 {
    GUF_ASSERT(sv);
    if (!sv->str || sv->len <= 0) {
--- a/src/guf_utf8.h
+++ b/src/guf_utf8.h
@ -35,9 +35,9 @@ GUF_UTF8_KWRDS int guf_utf8_char_num_bytes(const guf_utf8_char *c);
 GUF_UTF8_KWRDS bool guf_utf8_char_is_valid(const guf_utf8_char *c);
 GUF_UTF8_KWRDS bool guf_utf8_char_is_whitespace(const guf_utf8_char *c);
-GUF_UTF8_KWRDS guf_utf8_char guf_utf8_char_new(uint32_t codepoint);             // Returns GUF_UTF8_REPLACEMENT_CHAR for invalid codepoints (and for GUF_UTF8_REPLACEMENT_CHAR_CODEPOINT).
+GUF_UTF8_KWRDS guf_utf8_char guf_utf8_char_new(uint_fast32_t codepoint);             // Returns GUF_UTF8_REPLACEMENT_CHAR for invalid codepoints (and for GUF_UTF8_REPLACEMENT_CHAR_CODEPOINT).
-GUF_UTF8_KWRDS bool guf_utf8_encode(guf_utf8_char *result, uint32_t codepoint); // Returns false for invalid codepoints.
+GUF_UTF8_KWRDS bool guf_utf8_encode(guf_utf8_char *result, uint_fast32_t codepoint); // Returns false for invalid codepoints.
-GUF_UTF8_KWRDS int32_t guf_utf8_decode(const guf_utf8_char *utf8);              // Returns -1 for invalid utf-8.
+GUF_UTF8_KWRDS int_fast32_t guf_utf8_decode(const guf_utf8_char *utf8);              // Returns -1 for invalid utf-8.
 GUF_UTF8_KWRDS bool guf_utf8_equal(const guf_utf8_char *a, const guf_utf8_char *b);
@ -93,7 +93,7 @@ GUF_UTF8_KWRDS bool guf_utf8_equal(const guf_utf8_char *a, const guf_utf8_char *
 }
 // cf. https://datatracker.ietf.org/doc/html/rfc3629#section-3 (last-retrieved 2025-03-02)
-GUF_UTF8_KWRDS bool guf_utf8_encode(guf_utf8_char *result, uint32_t cp)
+GUF_UTF8_KWRDS bool guf_utf8_encode(guf_utf8_char *result, uint_fast32_t cp)
 {
    GUF_ASSERT(result);
@ -138,8 +138,8 @@ GUF_UTF8_KWRDS bool guf_utf8_encode(guf_utf8_char *result, uint32_t cp)
    int cp_bits = 0;
    for (int byte_n = num_bytes - 1; byte_n >= 0 && cp > 0; --byte_n) {
        const int bits = (byte_n == 0) ? first_byte_bits : tail_byte_bits;
-        const uint32_t cp_mask = (UINT32_C(1) << bits) - 1;
+        const uint_fast32_t cp_mask = GUF_UWRAP_32( (UINT32_C(1) << bits) - 1 );
-        result->bytes[byte_n] = (char)((unsigned char)result->bytes[byte_n] | (cp & cp_mask));
+        result->bytes[byte_n] = (char)(1u * (unsigned char)result->bytes[byte_n] | (cp & cp_mask));
        cp = cp >> bits;
        cp_bits += bits;
    }
@ -155,7 +155,7 @@ GUF_UTF8_KWRDS bool guf_utf8_encode(guf_utf8_char *result, uint32_t cp)
    }
 }
-GUF_UTF8_KWRDS guf_utf8_char guf_utf8_char_new(uint32_t codepoint)
+GUF_UTF8_KWRDS guf_utf8_char guf_utf8_char_new(uint_fast32_t codepoint)
 {
    guf_utf8_char result = GUF_UTF8_REPLACEMENT_CHAR;
    guf_utf8_encode(&result, codepoint);
@ -163,7 +163,7 @@ GUF_UTF8_KWRDS guf_utf8_char guf_utf8_char_new(uint32_t codepoint)
 }
 // cf. https://datatracker.ietf.org/doc/html/rfc3629#section-3 (last-retrieved 2025-03-02)
-GUF_UTF8_KWRDS int32_t guf_utf8_decode(const guf_utf8_char *c)
+GUF_UTF8_KWRDS int_fast32_t guf_utf8_decode(const guf_utf8_char *c)
 {
    if (!guf_utf8_char_is_valid(c)) {
        return -1;
@ -189,12 +189,12 @@ GUF_UTF8_KWRDS int32_t guf_utf8_decode(const guf_utf8_char *c)
        return -1;
    }
-    uint32_t cp = 0;
+    uint_fast32_t cp = 0;
    int cp_bits = 0;
    for (int byte_n = num_bytes - 1; byte_n >= 0; --byte_n) {
        const int bits = (byte_n == 0) ? first_byte_bits : tail_byte_bits;
-        const uint32_t byte_mask = (UINT32_C(1) << bits) - 1;
+        const uint_fast32_t byte_mask = GUF_UWRAP_32( (UINT32_C(1) << bits) - 1 );
-        cp |= ((uint32_t)c->bytes[byte_n] & byte_mask) << cp_bits;
+        cp = GUF_UWRAP_32( cp | GUF_UWRAP_32( 1u * ((uint_fast32_t)c->bytes[byte_n] & byte_mask) << cp_bits ) );
        cp_bits += bits;
    }
    GUF_ASSERT(cp_bits == first_byte_bits + (num_bytes - 1) * tail_byte_bits);
@ -204,8 +204,11 @@ GUF_UTF8_KWRDS int32_t guf_utf8_decode(const guf_utf8_char *c)
    if (!valid) {
        return -1;
    } else {
        #ifdef INT32_MAX
            GUF_ASSERT(cp <= INT32_MAX);
-        return (int32_t)cp;
+        #endif
        GUF_ASSERT(cp <= INT_FAST32_MAX);
        return (int_fast32_t)cp;
    }
 }
--- a/src/test/test_ckdint.cpp
+++ b/src/test/test_ckdint.cpp
@ -27,6 +27,7 @@ void CkdIntTest::test_ckd()
            const int32_t add_res = a + b;
            const guf_math_ckd_result ckd_add = guf_ckd_add_i8((int8_t)a, (int8_t)b);
            TEST_CHECK(ckd_add == guf_ckd_add_i8((int8_t)b, (int8_t)a));
            TEST_CHECK(ckd_add == guf_ckd_add_int_fast8_t((int_fast8_t)a, (int_fast8_t)b));
            if (add_res > INT8_MAX) {
                TEST_CHECK(ckd_add == GUF_MATH_CKD_OVERFLOW_POS); 
                int8_t saturated, saturated2;
@ -72,6 +73,7 @@ void CkdIntTest::test_ckd()
            const int32_t sub_res = a - b;
            const guf_math_ckd_result ckd_sub = guf_ckd_sub_i8((int8_t)a, (int8_t)b);
            TEST_CHECK(ckd_sub == guf_ckd_sub_int_fast8_t((int_fast8_t)a, (int_fast8_t)b));
            if (sub_res > INT8_MAX) {
                TEST_CHECK(ckd_sub == GUF_MATH_CKD_OVERFLOW_POS); 
                int8_t saturated;
@ -100,6 +102,7 @@ void CkdIntTest::test_ckd()
            const int32_t mul_res = a * b;
            const guf_math_ckd_result ckd_mul = guf_ckd_mul_i8((int8_t)a, (int8_t)b);
            TEST_CHECK(ckd_mul == guf_ckd_mul_int_fast8_t((int_fast8_t)a, (int_fast8_t)b));
            TEST_CHECK(ckd_mul == guf_ckd_mul_i8((int8_t)b, (int8_t)a));
            if (mul_res > INT8_MAX) {
                TEST_CHECK(ckd_mul == GUF_MATH_CKD_OVERFLOW_POS); 
@ -220,6 +223,57 @@ void CkdIntTest::test_ckd()
    guf_wrapping_mul_i32(4096, -314159265, &mul_i32_res); 
    TEST_CHECK(mul_i32_res == 1693839360);
    int_fast32_t mul_i32fast_res = -12345;
    TEST_CHECK(guf_wrapping_mul_int_fast32_t(INT32_MAX, 2, &mul_i32fast_res) == GUF_MATH_CKD_OVERFLOW_POS);
    TEST_CHECK(mul_i32fast_res == -2);
    mul_i32fast_res = -12345;
    TEST_CHECK(guf_wrapping_mul_int_fast32_t(2, INT32_MAX, &mul_i32fast_res) == GUF_MATH_CKD_OVERFLOW_POS);
    TEST_CHECK(mul_i32fast_res == -2);
    mul_i32fast_res = -12345;
    TEST_CHECK(guf_wrapping_mul_int_fast32_t(INT32_MAX, -2, &mul_i32fast_res) == GUF_MATH_CKD_OVERFLOW_NEG);
    TEST_CHECK(mul_i32fast_res == 2);
    mul_i32fast_res = -12345;
    TEST_CHECK(guf_wrapping_mul_int_fast32_t(-2, INT32_MAX, &mul_i32fast_res) == GUF_MATH_CKD_OVERFLOW_NEG);
    TEST_CHECK(mul_i32fast_res == 2);
    TEST_CHECK(guf_wrapping_mul_int_fast32_t(42002718, 314159265, &mul_i32fast_res) == GUF_MATH_CKD_OVERFLOW_POS);
    TEST_CHECK(mul_i32fast_res == -972735522);
    mul_i32fast_res = -12345;
    TEST_CHECK(guf_wrapping_mul_int_fast32_t(314159265, 42002718, &mul_i32fast_res) == GUF_MATH_CKD_OVERFLOW_POS);
    TEST_CHECK(mul_i32fast_res == -972735522);
    mul_i32fast_res = 12345;
    guf_wrapping_mul_int_fast32_t(42002718, 314159265, &mul_i32fast_res); 
    TEST_CHECK(mul_i32fast_res == -972735522);
    mul_i32fast_res = 12345;
    guf_wrapping_mul_int_fast32_t(-42002718, 314159265, &mul_i32fast_res);
    TEST_CHECK(mul_i32fast_res == 972735522);
    mul_i32fast_res = 12345;
    guf_wrapping_mul_int_fast32_t(-88888888, 99999999, &mul_i32fast_res); 
    TEST_CHECK(mul_i32fast_res == 1374494264);
    mul_i32fast_res = 12345;
    guf_wrapping_mul_int_fast32_t(INT32_MIN, -1, &mul_i32fast_res); 
    TEST_CHECK(mul_i32fast_res == INT32_MIN);
    mul_i32fast_res = 12345;
    guf_wrapping_mul_int_fast32_t(-2147483648, 2147483640, &mul_i32fast_res); 
    TEST_CHECK(mul_i32fast_res == 0);
    mul_i32fast_res = 12345;
    guf_wrapping_mul_int_fast32_t(-2048, -314159265, &mul_i32fast_res); 
    TEST_CHECK(mul_i32fast_res == -846919680);
    mul_i32fast_res = 12345;
    guf_wrapping_mul_int_fast32_t(4096, -314159265, &mul_i32fast_res); 
    TEST_CHECK(mul_i32fast_res == 1693839360);
    ptrdiff_t ptrdiff_res = -1234;
    TEST_CHECK(guf_saturating_add_ptrdiff_t(PTRDIFF_MAX, 1, &ptrdiff_res) == GUF_MATH_CKD_OVERFLOW_POS);
    TEST_CHECK(ptrdiff_res == PTRDIFF_MAX);
@ -241,6 +295,7 @@ void CkdIntTest::test_ckd_uint()
        for (int32_t b = 0; b <= UINT8_MAX; ++b) {
            const int32_t add_res = a + b;
            const guf_math_ckd_result ckd_add = guf_ckd_add_u8((uint8_t)a, (uint8_t)b);
            GUF_ASSERT(ckd_add == guf_ckd_add_uint_fast8_t((uint_fast8_t)a, (uint_fast8_t)b));
            if (add_res > UINT8_MAX) {
                TEST_CHECK(ckd_add == GUF_MATH_CKD_OVERFLOW_POS); 
                uint8_t saturated;
@ -262,6 +317,7 @@ void CkdIntTest::test_ckd_uint()
            const int32_t sub_res = a - b;
            const guf_math_ckd_result ckd_sub = guf_ckd_sub_u8((uint8_t)a, (uint8_t)b);
            GUF_ASSERT(ckd_sub == guf_ckd_sub_uint_fast8_t((uint_fast8_t)a, (uint_fast8_t)b));
            if (sub_res < 0) {
                TEST_CHECK(ckd_sub == GUF_MATH_CKD_OVERFLOW_NEG); 
                uint8_t saturated;
@ -282,6 +338,7 @@ void CkdIntTest::test_ckd_uint()
            const int32_t mul_res = a * b;
            const guf_math_ckd_result ckd_mul = guf_ckd_mul_u8((uint8_t)a, (uint8_t)b);
            GUF_ASSERT(ckd_mul == guf_ckd_mul_uint_fast8_t((uint_fast8_t)a, (uint_fast8_t)b));
            if (mul_res > UINT8_MAX) {
                TEST_CHECK(ckd_mul == GUF_MATH_CKD_OVERFLOW_POS); 
                uint8_t saturated;
--- a/todo.txt
+++ b/todo.txt
@ -1,3 +1,6 @@
 - make guf_utf8_char 4 bytes (non-null terminated)
 - guf_stack, guf_queue, guf_dqueue, guf_prio_queue (using a heap), guf_ringbuf
 - sort: add cpp #ifdef to remove restrict from declaration
--- a/tools/ckdint-gen.py
+++ b/tools/ckdint-gen.py
@ -12,7 +12,10 @@ class IntType:
    INT_TYPE_ABBR: str
    INT_MIN: str
    INT_MAX: str
-    UINT_TYPE: str = "size_t"
+    UINT_TYPE: str
    UINT_MAX: str
    is_optional: bool = False
@dataclass
 class UintType: 
@ -20,15 +23,17 @@ class UintType:
    INT_TYPE_ABBR: str
    INT_MIN: str
    INT_MAX: str
    is_optional: bool = False
 def generate_ckdint_functions(int_types: list, uint_types: list) -> Tuple[str, str]:
-    ckd_add_sub_uint_header = textwrap.dedent("""
+    ckd_add_sub_uint_header = textwrap.dedent("""\
        GUF_MATH_CKDINT_KWRDS guf_math_ckd_result guf_ckd_add_{type_abbr}({type} a, {type} b);
        GUF_MATH_CKDINT_KWRDS guf_math_ckd_result guf_ckd_sub_{type_abbr}({type} a, {type} b);
        GUF_MATH_CKDINT_KWRDS guf_math_ckd_result guf_ckd_mul_{type_abbr}({type} a, {type} b);                      
    """)
-    ckd_add_sub_uint = textwrap.dedent("""
+
    ckd_add_sub_uint = textwrap.dedent("""\
        GUF_MATH_CKDINT_KWRDS guf_math_ckd_result guf_ckd_add_{type_abbr}({type} a, {type} b)
        {{
            if (b > 0 && a > {int_max} - b) {{ 
@ -52,13 +57,43 @@ def generate_ckdint_functions(int_types: list, uint_types: list) -> Tuple[str, s
        }}
    """)
    ckd_add_sub_uint_FAST = textwrap.dedent("""\
        GUF_MATH_CKDINT_KWRDS guf_math_ckd_result guf_ckd_add_{type_abbr}({type} a, {type} b)
        {{
            a = GUF_UWRAP_{bits}(a);
            b = GUF_UWRAP_{bits}(b);                
            if (b > 0 && a > {int_max} - b) {{ 
                return GUF_MATH_CKD_OVERFLOW_POS;
            }} else {{
                return GUF_MATH_CKD_SUCCESS;
            }}
        }}
        GUF_MATH_CKDINT_KWRDS guf_math_ckd_result guf_ckd_sub_{type_abbr}({type} a, {type} b)
        {{
            a = GUF_UWRAP_{bits}(a);
            b = GUF_UWRAP_{bits}(b);                                                               
            if (b > a) {{
                return GUF_MATH_CKD_OVERFLOW_NEG;
            }} else {{
                return GUF_MATH_CKD_SUCCESS;
            }}
        }}
        GUF_MATH_CKDINT_KWRDS guf_math_ckd_result guf_ckd_mul_{type_abbr}({type} a, {type} b)
        {{
            a = GUF_UWRAP_{bits}(a);
            b = GUF_UWRAP_{bits}(b);                           
            const {type} c = GUF_UWRAP_{bits}( 1u * a * b );
            return a != 0 && ((1u * c / a) != b) ? GUF_MATH_CKD_OVERFLOW_POS : GUF_MATH_CKD_SUCCESS;
        }}
    """)
-    ckd_add_sub_int_header = textwrap.dedent("""
+    ckd_add_sub_int_header = textwrap.dedent("""\
        GUF_MATH_CKDINT_KWRDS guf_math_ckd_result guf_ckd_add_{type_abbr}({type} a, {type} b);
        GUF_MATH_CKDINT_KWRDS guf_math_ckd_result guf_ckd_sub_{type_abbr}({type} a, {type} b);
        GUF_MATH_CKDINT_KWRDS guf_math_ckd_result guf_ckd_mul_{type_abbr}({type} a, {type} b);                
    """)
-    ckd_add_sub_int = textwrap.dedent("""
+
    ckd_add_sub_int = textwrap.dedent("""\
        GUF_MATH_CKDINT_KWRDS guf_math_ckd_result guf_ckd_add_{type_abbr}({type} a, {type} b)
        {{
            if (b > 0 && a > {int_max} - b) {{
@ -107,7 +142,7 @@ def generate_ckdint_functions(int_types: list, uint_types: list) -> Tuple[str, s
-    saturating_wrapping_int_header = textwrap.dedent(""" 
+    saturating_wrapping_int_header = textwrap.dedent("""\
        GUF_MATH_CKDINT_KWRDS guf_math_ckd_result guf_saturating_add_{type_abbr}({type} a, {type} b, {type} *result);
        GUF_MATH_CKDINT_KWRDS guf_math_ckd_result guf_saturating_sub_{type_abbr}({type} a, {type} b, {type} *result);
        GUF_MATH_CKDINT_KWRDS guf_math_ckd_result guf_saturating_mul_{type_abbr}({type} a, {type} b, {type} *result);
@ -116,7 +151,8 @@ def generate_ckdint_functions(int_types: list, uint_types: list) -> Tuple[str, s
        GUF_MATH_CKDINT_KWRDS guf_math_ckd_result guf_wrapping_sub_{type_abbr}({type} a, {type} b, {type} *result);
        GUF_MATH_CKDINT_KWRDS guf_math_ckd_result guf_wrapping_mul_{type_abbr}({type} a, {type} b, {type} *result);                               
    """)
-    saturating_wrapping_int = textwrap.dedent(""" 
+
    saturating_wrapping_int = textwrap.dedent("""\
        GUF_MATH_CKDINT_KWRDS guf_math_ckd_result guf_saturating_add_{type_abbr}({type} a, {type} b, {type} *result)
        {{
            const guf_math_ckd_result check = guf_ckd_add_{type_abbr}(a, b); 
@ -232,8 +268,9 @@ def generate_ckdint_functions(int_types: list, uint_types: list) -> Tuple[str, s
                    case GUF_MATH_CKD_OVERFLOW_NEG: {{
                        {uint_type} res = 1u * ({uint_type})a * ({uint_type})b;
                        if (res > {int_max}) {{ // This is the fix for implementation defined conversion from unsigned to signed.
-                            const {uint_type} mod = (1u + ({uint_type}){int_max}); 
+                            const {uint_type} mod = ({uint_type}){int_max} + 1u;
-                            res = mod > 0 ? (1u * res % mod) : res;
+                            GUF_ASSERT(mod > 0);
                            res = 1u * res % mod;
                            *result = {int_min} + ({type})res; 
                        }} else {{
                            *result = ({type})res;
@ -248,7 +285,8 @@ def generate_ckdint_functions(int_types: list, uint_types: list) -> Tuple[str, s
        }}
    """)
-    saturating_wrapping_uint_header = textwrap.dedent(""" 
+
    saturating_wrapping_uint_header = textwrap.dedent("""\
        GUF_MATH_CKDINT_KWRDS guf_math_ckd_result guf_saturating_add_{type_abbr}({type} a, {type} b, {type} *result);
        GUF_MATH_CKDINT_KWRDS guf_math_ckd_result guf_saturating_sub_{type_abbr}({type} a, {type} b, {type} *result);
        GUF_MATH_CKDINT_KWRDS guf_math_ckd_result guf_saturating_mul_{type_abbr}({type} a, {type} b, {type} *result);
@ -258,7 +296,7 @@ def generate_ckdint_functions(int_types: list, uint_types: list) -> Tuple[str, s
        GUF_MATH_CKDINT_KWRDS guf_math_ckd_result guf_wrapping_mul_{type_abbr}({type} a, {type} b, {type} *result);                                   
    """)
-    saturating_wrapping_uint = textwrap.dedent(""" 
+    saturating_wrapping_uint = textwrap.dedent("""\
        GUF_MATH_CKDINT_KWRDS guf_math_ckd_result guf_saturating_add_{type_abbr}({type} a, {type} b, {type} *result)
        {{
            const guf_math_ckd_result check = guf_ckd_add_{type_abbr}(a, b); 
@ -340,29 +378,190 @@ def generate_ckdint_functions(int_types: list, uint_types: list) -> Tuple[str, s
        }}
    """)
    saturating_wrapping_uint_FAST = textwrap.dedent("""\
        GUF_MATH_CKDINT_KWRDS guf_math_ckd_result guf_saturating_add_{type_abbr}({type} a, {type} b, {type} *result)
        {{
            const guf_math_ckd_result check = guf_ckd_add_{type_abbr}(a, b); 
            GUF_ASSERT(check == GUF_MATH_CKD_SUCCESS || check == GUF_MATH_CKD_OVERFLOW_POS);
            if (result) {{
                switch (check) {{
                    case GUF_MATH_CKD_SUCCESS:
                        *result = a + b;
                        break;
                    case GUF_MATH_CKD_OVERFLOW_POS:
                        *result = {int_max};
                        break;
                    default:
                        GUF_ASSERT(false);
                }}
            }}
            return check;
        }}
        GUF_MATH_CKDINT_KWRDS guf_math_ckd_result guf_saturating_sub_{type_abbr}({type} a, {type} b, {type} *result)
        {{
            const guf_math_ckd_result check = guf_ckd_sub_{type_abbr}(a, b); 
            GUF_ASSERT(check == GUF_MATH_CKD_SUCCESS || check == GUF_MATH_CKD_OVERFLOW_NEG);
            if (result) {{
                switch (check) {{
                    case GUF_MATH_CKD_SUCCESS:
                        *result = a - b;
                        break;
                    case GUF_MATH_CKD_OVERFLOW_NEG:
                        *result = 0;
                        break;
                    default:
                        GUF_ASSERT(false);
                }}
            }}
            return check;
        }}
        GUF_MATH_CKDINT_KWRDS guf_math_ckd_result guf_saturating_mul_{type_abbr}({type} a, {type} b, {type} *result)
        {{
            const guf_math_ckd_result check = guf_ckd_mul_{type_abbr}(a, b); 
            GUF_ASSERT(check == GUF_MATH_CKD_SUCCESS || check == GUF_MATH_CKD_OVERFLOW_POS);
            if (result) {{
                switch (check) {{
                    case GUF_MATH_CKD_SUCCESS:
                        *result = a * b;
                        break;
                    case GUF_MATH_CKD_OVERFLOW_POS:
                        *result = {int_max};
                        break;
                    default:
                        GUF_ASSERT(false);
                }}
            }}
            return check;
        }}
        GUF_MATH_CKDINT_KWRDS guf_math_ckd_result guf_wrapping_add_{type_abbr}({type} a, {type} b, {type} *result)
        {{
            a = GUF_UWRAP_{bits}(a);
            b = GUF_UWRAP_{bits}(b);
            const guf_math_ckd_result check = guf_ckd_add_{type_abbr}(a, b); 
            if (result) {{
                *result = GUF_UWRAP_{bits}( 1u * a + b );          
            }}
            return check;
        }}
        GUF_MATH_CKDINT_KWRDS guf_math_ckd_result guf_wrapping_sub_{type_abbr}({type} a, {type} b, {type} *result)
        {{
            a = GUF_UWRAP_{bits}(a);
            b = GUF_UWRAP_{bits}(b);
            const guf_math_ckd_result check = guf_ckd_sub_{type_abbr}(a, b); 
            if (result) {{
                *result = GUF_UWRAP_{bits}( 1u * a - b );
            }}
            return check; 
        }}
        GUF_MATH_CKDINT_KWRDS guf_math_ckd_result guf_wrapping_mul_{type_abbr}({type} a, {type} b, {type} *result)
        {{
            a = GUF_UWRAP_{bits}(a);
            b = GUF_UWRAP_{bits}(b);
            const guf_math_ckd_result check = guf_ckd_mul_{type_abbr}(a, b); 
            if (result) {{
                *result = GUF_UWRAP_{bits}( 1u * a * b );
            }}
            return check; 
        }}
    """)
    text_result = "// Signed integer arithmetic checks (generated with libguf/tools/ckdint-gen.py)\n"
    text_result_header = text_result
    for type in int_types:      
-        text_result += ckd_add_sub_int.format(type = type.INT_TYPE, type_abbr = type.INT_TYPE_ABBR, int_min = type.INT_MIN, int_max = type.INT_MAX)
+        end = "\n"       
-        text_result_header += ckd_add_sub_int_header.format(type = type.INT_TYPE, type_abbr = type.INT_TYPE_ABBR, int_min = type.INT_MIN, int_max = type.INT_MAX)
+        if type.is_optional:
            text_result += f"#ifdef {type.INT_MAX}\n"
            text_result_header += f"#ifdef {type.INT_MAX}\n"
            end = ""
        text_result += ckd_add_sub_int.format(type = type.INT_TYPE, type_abbr = type.INT_TYPE_ABBR, int_min = type.INT_MIN, int_max = type.INT_MAX, uint_max = type.UINT_MAX) + end
        text_result_header += ckd_add_sub_int_header.format(type = type.INT_TYPE, type_abbr = type.INT_TYPE_ABBR, int_min = type.INT_MIN, int_max = type.INT_MAX, uint_max = type.UINT_MAX) + end
        if type.is_optional:
            text_result += "#endif\n\n"
            text_result_header += "#endif\n\n"
    text_result += "\n// Unsigned integer arithmetic checks (generated with libguf/tools/ckdint-gen.py) \n"
    text_result_header += "\n// Unsigned integer arithmetic checks (generated with libguf/tools/ckdint-gen.py) \n"
    for type in uint_types: 
-        text_result += ckd_add_sub_uint.format(type = type.INT_TYPE, type_abbr = type.INT_TYPE_ABBR, int_min = type.INT_MIN, int_max = type.INT_MAX)
+        end = "\n"
-        text_result_header += ckd_add_sub_uint_header.format(type = type.INT_TYPE, type_abbr = type.INT_TYPE_ABBR, int_min = type.INT_MIN, int_max = type.INT_MAX)
+        if type.is_optional:
            text_result += f"#ifdef {type.INT_MAX}\n"
            text_result_header += f"#ifdef {type.INT_MAX}\n"
            end = ""
        if "uint_fast" in type.INT_TYPE:
            bits = 0
            if "fast8" in type.INT_TYPE:
                bits = 8
            elif "fast16" in type.INT_TYPE:
                bits = 16
            elif "fast32" in type.INT_TYPE:
                bits = 32
            elif "fast64" in type.INT_TYPE:
                bits = 64
            else:
                assert(False)
            text_result += ckd_add_sub_uint_FAST.format(type = type.INT_TYPE, type_abbr = type.INT_TYPE_ABBR, int_min = type.INT_MIN, int_max = type.INT_MAX, bits = str(bits))
        else:
            text_result += ckd_add_sub_uint.format(type = type.INT_TYPE, type_abbr = type.INT_TYPE_ABBR, int_min = type.INT_MIN, int_max = type.INT_MAX) + end
        text_result_header += ckd_add_sub_uint_header.format(type = type.INT_TYPE, type_abbr = type.INT_TYPE_ABBR, int_min = type.INT_MIN, int_max = type.INT_MAX) + end
        if type.is_optional:
            text_result += "#endif\n\n"
            text_result_header += "#endif\n\n"
    text_result += "\n\n// Signed saturating/wrapping arithmetic (generated with libguf/tools/ckdint-gen.py)\n"
    text_result_header += "\n\n// Signed saturating/wrapping arithmetic (generated with libguf/tools/ckdint-gen.py)\n"
    for type in int_types:
-        text_result += saturating_wrapping_int.format(type = type.INT_TYPE, type_abbr = type.INT_TYPE_ABBR, int_min = type.INT_MIN, int_max = type.INT_MAX, uint_type = type.UINT_TYPE) + "\n"
+        end = "\n"
-        text_result_header += saturating_wrapping_int_header.format(type = type.INT_TYPE, type_abbr = type.INT_TYPE_ABBR, int_min = type.INT_MIN, int_max = type.INT_MAX, uint_type = type.UINT_TYPE) + "\n"
+        if type.is_optional:
            text_result += f"#ifdef {type.INT_MAX}\n"
            text_result_header += f"#ifdef {type.INT_MAX}\n"
            end = ""
        text_result += saturating_wrapping_int.format(type = type.INT_TYPE, type_abbr = type.INT_TYPE_ABBR, int_min = type.INT_MIN, int_max = type.INT_MAX, uint_type = type.UINT_TYPE, uint_max = type.UINT_MAX) + end
        text_result_header += saturating_wrapping_int_header.format(type = type.INT_TYPE, type_abbr = type.INT_TYPE_ABBR, int_min = type.INT_MIN, int_max = type.INT_MAX, uint_type = type.UINT_TYPE, uint_max = type.UINT_MAX) + end
        if type.is_optional:
            text_result += "#endif\n\n"
            text_result_header += "#endif\n\n"
    text_result += "\n// Unsigned saturating/wrapping arithmetic (generated with libguf/tools/ckdint-gen.py)\n"
    text_result_header += "\n// Unsigned saturating/wrapping arithmetic (generated with libguf/tools/ckdint-gen.py)\n"
    for type in uint_types:
-        text_result += saturating_wrapping_uint.format(type = type.INT_TYPE, type_abbr = type.INT_TYPE_ABBR, int_min = type.INT_MIN, int_max = type.INT_MAX) + "\n"
+        end = "\n"
-        text_result_header += saturating_wrapping_uint_header.format(type = type.INT_TYPE, type_abbr = type.INT_TYPE_ABBR, int_min = type.INT_MIN, int_max = type.INT_MAX) + "\n"
+        if type.is_optional:
            text_result += f"#ifdef {type.INT_MAX}\n"
            text_result_header += f"#ifdef {type.INT_MAX}\n"
            end = ""
        if "uint_fast" in type.INT_TYPE:
            bits = 0
            if "fast8" in type.INT_TYPE:
                bits = 8
            elif "fast16" in type.INT_TYPE:
                bits = 16
            elif "fast32" in type.INT_TYPE:
                bits = 32
            elif "fast64" in type.INT_TYPE:
                bits = 64
            else:
                assert(False)
            text_result += saturating_wrapping_uint_FAST.format(type = type.INT_TYPE, type_abbr = type.INT_TYPE_ABBR, int_min = type.INT_MIN, int_max = type.INT_MAX, bits = str(bits)) + end
        else:
            text_result += saturating_wrapping_uint.format(type = type.INT_TYPE, type_abbr = type.INT_TYPE_ABBR, int_min = type.INT_MIN, int_max = type.INT_MAX) + end
        text_result_header += saturating_wrapping_uint_header.format(type = type.INT_TYPE, type_abbr = type.INT_TYPE_ABBR, int_min = type.INT_MIN, int_max = type.INT_MAX) + end
        if type.is_optional:
            text_result += "#endif\n\n"
            text_result_header += "#endif\n\n"
    return (text_result_header, text_result)
@ -371,28 +570,41 @@ def generate_ckdint_functions(int_types: list, uint_types: list) -> Tuple[str, s
 if __name__ == "__main__":
    int_types = [
-        IntType(INT_TYPE = "int",       INT_TYPE_ABBR = "int",       INT_MIN = "INT_MIN",     INT_MAX = "INT_MAX",     UINT_TYPE = "unsigned"), 
+        IntType(INT_TYPE = "int",       INT_TYPE_ABBR = "int",       INT_MIN = "INT_MIN",     INT_MAX = "INT_MAX",     UINT_TYPE = "unsigned",           UINT_MAX  = "UINT_MAX"), 
-        IntType(INT_TYPE = "long",      INT_TYPE_ABBR = "long",      INT_MIN = "LONG_MIN",    INT_MAX = "LONG_MAX",    UINT_TYPE = "unsigned long"),
+        IntType(INT_TYPE = "long",      INT_TYPE_ABBR = "long",      INT_MIN = "LONG_MIN",    INT_MAX = "LONG_MAX",    UINT_TYPE = "unsigned long",      UINT_MAX  = "ULONG_MAX"),
-        IntType(INT_TYPE = "long long", INT_TYPE_ABBR = "long_long", INT_MIN = "LLONG_MIN",   INT_MAX = "LLONG_MAX",   UINT_TYPE = "unsigned long long"), 
+        IntType(INT_TYPE = "long long", INT_TYPE_ABBR = "long_long", INT_MIN = "LLONG_MIN",   INT_MAX = "LLONG_MAX",   UINT_TYPE = "unsigned long long", UINT_MAX  = "ULLONG_MAX"), 
-        IntType(INT_TYPE = "int8_t",    INT_TYPE_ABBR = "i8",        INT_MIN = "INT8_MIN",    INT_MAX = "INT8_MAX",    UINT_TYPE = "uint8_t"), 
+        # TODO: size_t is not necessarily the unsigned ptrdiff_t equivalent
-        IntType(INT_TYPE = "int16_t",   INT_TYPE_ABBR = "i16",       INT_MIN = "INT16_MIN",   INT_MAX = "INT16_MAX",   UINT_TYPE = "uint16_t"), 
+        IntType(INT_TYPE = "ptrdiff_t", INT_TYPE_ABBR = "ptrdiff_t", INT_MIN = "PTRDIFF_MIN", INT_MAX = "PTRDIFF_MAX", UINT_TYPE = "size_t", UINT_MAX = "SIZE_MAX"), 
-        IntType(INT_TYPE = "int32_t",   INT_TYPE_ABBR = "i32",       INT_MIN = "INT32_MIN",   INT_MAX = "INT32_MAX",   UINT_TYPE = "uint32_t"), 
+
-        IntType(INT_TYPE = "int64_t",   INT_TYPE_ABBR = "i64",       INT_MIN = "INT64_MIN",   INT_MAX = "INT64_MAX",   UINT_TYPE = "uint64_t"), 
+        IntType(INT_TYPE = "int_fast8_t",  INT_TYPE_ABBR = "int_fast8_t",  INT_MIN = "GUF_INT8_MIN",    INT_MAX = "GUF_INT8_MAX",  UINT_TYPE = "uint_fast8_t",  UINT_MAX  = "GUF_UINT8_MAX"), 
-        IntType(INT_TYPE = "ptrdiff_t", INT_TYPE_ABBR = "ptrdiff_t", INT_MIN = "PTRDIFF_MIN", INT_MAX = "PTRDIFF_MAX", UINT_TYPE = "size_t"), # TODO: size_t is not necessarily the unsigned ptrdiff_t equivalent
+        IntType(INT_TYPE = "int_fast16_t", INT_TYPE_ABBR = "int_fast16_t", INT_MIN = "GUF_INT16_MIN",   INT_MAX = "GUF_INT16_MAX", UINT_TYPE = "uint_fast16_t", UINT_MAX = "GUF_UINT16_MAX"), 
        IntType(INT_TYPE = "int_fast32_t", INT_TYPE_ABBR = "int_fast32_t", INT_MIN = "GUF_INT32_MIN",   INT_MAX = "GUF_INT32_MAX", UINT_TYPE = "uint_fast32_t", UINT_MAX = "GUF_UINT32_MAX"), 
        IntType(INT_TYPE = "int_fast64_t", INT_TYPE_ABBR = "int_fast64_t", INT_MIN = "GUF_INT64_MIN",   INT_MAX = "GUF_INT64_MAX", UINT_TYPE = "uint_fast64_t", UINT_MAX = "GUF_UINT64_MAX"), 
        IntType(INT_TYPE = "int8_t",       INT_TYPE_ABBR = "i8",        INT_MIN = "INT8_MIN",    INT_MAX = "INT8_MAX",    UINT_TYPE = "uint8_t",  UINT_MAX = "GUF_UINT8_MAX",  is_optional = True), 
        IntType(INT_TYPE = "int16_t",      INT_TYPE_ABBR = "i16",       INT_MIN = "INT16_MIN",   INT_MAX = "INT16_MAX",   UINT_TYPE = "uint16_t", UINT_MAX = "GUF_UINT16_MAX", is_optional = True), 
        IntType(INT_TYPE = "int32_t",      INT_TYPE_ABBR = "i32",       INT_MIN = "INT32_MIN",   INT_MAX = "INT32_MAX",   UINT_TYPE = "uint32_t", UINT_MAX = "GUF_UINT32_MAX", is_optional = True), 
        IntType(INT_TYPE = "int64_t",      INT_TYPE_ABBR = "i64",       INT_MIN = "INT64_MIN",   INT_MAX = "INT64_MAX",   UINT_TYPE = "uint64_t", UINT_MAX = "GUF_UINT64_MAX", is_optional = True), 
    ]
    uint_types = [
        UintType(INT_TYPE = "unsigned char",      INT_TYPE_ABBR = "uchar",      INT_MIN = "0",          INT_MAX = "UCHAR_MAX"), 
        UintType(INT_TYPE = "unsigned",           INT_TYPE_ABBR = "unsigned",   INT_MIN = "0",          INT_MAX = "UINT_MAX"), 
-        UintType(INT_TYPE = "unsigned long",      INT_TYPE_ABBR = "ulong",      INT_MIN = "ULONG_MIN",  INT_MAX = "ULONG_MAX"),
+        UintType(INT_TYPE = "unsigned long",      INT_TYPE_ABBR = "ulong",      INT_MIN = "0",          INT_MAX = "ULONG_MAX"),
-        UintType(INT_TYPE = "unsigned long long", INT_TYPE_ABBR = "ulong_long", INT_MIN = "ULLONG_MIN", INT_MAX = "ULLONG_MAX"),
+        UintType(INT_TYPE = "unsigned long long", INT_TYPE_ABBR = "ulong_long", INT_MIN = "0",          INT_MAX = "ULLONG_MAX"),
        UintType(INT_TYPE = "uint8_t",            INT_TYPE_ABBR = "u8",         INT_MIN = "0",          INT_MAX = "UINT8_MAX"), 
        UintType(INT_TYPE = "uint16_t",           INT_TYPE_ABBR = "u16",        INT_MIN = "0",          INT_MAX = "UINT16_MAX"), 
        UintType(INT_TYPE = "uint32_t",           INT_TYPE_ABBR = "u32",        INT_MIN = "0",          INT_MAX = "UINT32_MAX"), 
        UintType(INT_TYPE = "uint64_t",           INT_TYPE_ABBR = "u64",        INT_MIN = "0",          INT_MAX = "UINT64_MAX"), 
        UintType(INT_TYPE = "size_t",             INT_TYPE_ABBR = "size_t",     INT_MIN = "0",          INT_MAX = "SIZE_MAX"),
        UintType(INT_TYPE = "uint_fast8_t",  INT_TYPE_ABBR = "uint_fast8_t",  INT_MIN = "0",   INT_MAX = "GUF_UINT8_MAX"), 
        UintType(INT_TYPE = "uint_fast16_t", INT_TYPE_ABBR = "uint_fast16_t", INT_MIN = "0",   INT_MAX = "GUF_UINT16_MAX"), 
        UintType(INT_TYPE = "uint_fast32_t", INT_TYPE_ABBR = "uint_fast32_t", INT_MIN = "0",   INT_MAX = "GUF_UINT32_MAX"), 
        UintType(INT_TYPE = "uint_fast64_t", INT_TYPE_ABBR = "uint_fast64_t", INT_MIN = "0",   INT_MAX = "GUF_UINT64_MAX"),
        UintType(INT_TYPE = "uint8_t",            INT_TYPE_ABBR = "u8",         INT_MIN = "0",          INT_MAX = "UINT8_MAX",  is_optional = True), 
        UintType(INT_TYPE = "uint16_t",           INT_TYPE_ABBR = "u16",        INT_MIN = "0",          INT_MAX = "UINT16_MAX", is_optional = True), 
        UintType(INT_TYPE = "uint32_t",           INT_TYPE_ABBR = "u32",        INT_MIN = "0",          INT_MAX = "UINT32_MAX", is_optional = True), 
        UintType(INT_TYPE = "uint64_t",           INT_TYPE_ABBR = "u64",        INT_MIN = "0",          INT_MAX = "UINT64_MAX", is_optional = True), 
    ]
    code_header, code_impl = generate_ckdint_functions(int_types = int_types, uint_types= uint_types)
--- a/tools/min_max_clamp-gen.py
+++ b/tools/min_max_clamp-gen.py
@ -11,6 +11,7 @@ class IntType:
    INT_TYPE_ABBR: str
    INT_MIN: str
    INT_MAX: str
    is_optional: bool = False
@dataclass
 class UintType: 
@ -18,10 +19,11 @@ class UintType:
    INT_TYPE_ABBR: str
    INT_MIN: str
    INT_MAX: str
    is_optional: bool = False
 def gen_min_max_clamp(int_types: list, uint_types: list) -> str:
-    template = textwrap.dedent("""
+    template = textwrap.dedent("""\
            static inline {type} guf_min_{type_abbr}({type} a, {type} b) {{ return a < b ? a : b; }}
            static inline {type} guf_max_{type_abbr}({type} a, {type} b) {{ return a > b ? a : b; }}
            static inline {type} guf_clamp_{type_abbr}({type} x, {type} min, {type} max) {{ if (x < min) {{return min;}} if (x > max) {{return max;}} return x; }}
@ -29,12 +31,21 @@ def gen_min_max_clamp(int_types: list, uint_types: list) -> str:
    result = "\n// Signed min, max, clamp functions (generated with libguf/tools/min_max_clamp-gen.py)\n"                      
    for t in int_types: 
        if t.is_optional:
            result += "#ifdef {int_max}\n".format(int_max = t.INT_MAX)
        result += template.format(type = t.INT_TYPE, type_abbr = t.INT_TYPE_ABBR)
        if t.is_optional: 
            result += "#endif\n"
        result += "\n"
    result += "\n// Unsigned min, max, clamp functions (generated with libguf/tools/min_max_clamp-gen.py)\n"
    for t in uint_types: 
        if t.is_optional:
            result +="#ifdef {int_max}\n".format(int_max = t.INT_MAX)
        result += template.format(type = t.INT_TYPE, type_abbr = t.INT_TYPE_ABBR)
-
+        if t.is_optional: 
            result += "#endif\n"
        result += "\n"
    return result
@ -46,14 +57,22 @@ if __name__ == "__main__":
        IntType(INT_TYPE = "long",       INT_TYPE_ABBR = "long",      INT_MIN = "LONG_MIN",    INT_MAX = "LONG_MAX"), 
        IntType(INT_TYPE = "long long",  INT_TYPE_ABBR = "long_long", INT_MIN = "LLONG_MIN",   INT_MAX = "LLONG_MAX"), 
        IntType(INT_TYPE = "int8_t",    INT_TYPE_ABBR = "i8",         INT_MIN = "INT8_MIN",    INT_MAX = "INT8_MAX"), 
        IntType(INT_TYPE = "int16_t",   INT_TYPE_ABBR = "i16",        INT_MIN = "INT16_MIN",   INT_MAX = "INT16_MAX"), 
        IntType(INT_TYPE = "int32_t",   INT_TYPE_ABBR = "i32",        INT_MIN = "INT32_MIN",   INT_MAX = "INT32_MAX"), 
        IntType(INT_TYPE = "int64_t",   INT_TYPE_ABBR = "i64",        INT_MIN = "INT64_MIN",   INT_MAX = "INT64_MAX"), 
        IntType(INT_TYPE = "ptrdiff_t", INT_TYPE_ABBR = "ptrdiff_t",  INT_MIN = "PTRDIFF_MIN", INT_MAX = "PTRDIFF_MAX"), 
        IntType(INT_TYPE = "int_fast8_t",       INT_TYPE_ABBR = "i8_fast",  INT_MIN = "GUF_INT8_MIN",       INT_MAX = "GUF_INT8_MAX"), 
        IntType(INT_TYPE = "int_fast16_t",      INT_TYPE_ABBR = "i16_fast", INT_MIN = "GUF_INT16_MIN",      INT_MAX = "GUF_INT16_MAX"), 
        IntType(INT_TYPE = "int_fast32_t",      INT_TYPE_ABBR = "i32_fast", INT_MIN = "GUF_INT32_MIN",      INT_MAX = "GUF_INT32_MAX"), 
        IntType(INT_TYPE = "int_fast64_t",      INT_TYPE_ABBR = "i64_fast", INT_MIN = "GUF_INT64_MIN",      INT_MAX = "GUF_INT64_MAX"),
        IntType(INT_TYPE = "float",     INT_TYPE_ABBR = "f32",        INT_MIN = "-FLT_MAX",    INT_MAX = "FLT_MAX"), 
        IntType(INT_TYPE = "double",    INT_TYPE_ABBR = "f64",        INT_MIN = "-DBL_MAX",    INT_MAX = "DBL_MAX"), 
        IntType(INT_TYPE = "int8_t",    INT_TYPE_ABBR = "i8",         INT_MIN = "INT8_MIN",    INT_MAX = "INT8_MAX",  is_optional=True), 
        IntType(INT_TYPE = "int16_t",   INT_TYPE_ABBR = "i16",        INT_MIN = "INT16_MIN",   INT_MAX = "INT16_MAX", is_optional=True), 
        IntType(INT_TYPE = "int32_t",   INT_TYPE_ABBR = "i32",        INT_MIN = "INT32_MIN",   INT_MAX = "INT32_MAX", is_optional=True), 
        IntType(INT_TYPE = "int64_t",   INT_TYPE_ABBR = "i64",        INT_MIN = "INT64_MIN",   INT_MAX = "INT64_MAX", is_optional=True), 
    ]
    uint_types = [
@ -62,11 +81,17 @@ if __name__ == "__main__":
        UintType(INT_TYPE = "unsigned long",       INT_TYPE_ABBR = "ulong",      INT_MIN = "0",   INT_MAX = "ULONG_MAX"), 
        UintType(INT_TYPE = "unsigned long long",  INT_TYPE_ABBR = "ulong_long", INT_MIN = "0",   INT_MAX = "ULLONG_MAX"), 
        UintType(INT_TYPE = "uint8_t",             INT_TYPE_ABBR = "u8",         INT_MIN = "0",   INT_MAX = "UINT8_MAX"), 
        UintType(INT_TYPE = "uint16_t",            INT_TYPE_ABBR = "u16",        INT_MIN = "0",   INT_MAX = "UINT16_MAX"), 
        UintType(INT_TYPE = "uint32_t",            INT_TYPE_ABBR = "u32",        INT_MIN = "0",   INT_MAX = "UINT32_MAX"), 
        UintType(INT_TYPE = "uint64_t",            INT_TYPE_ABBR = "u64",        INT_MIN = "0",   INT_MAX = "UINT64_MAX"), 
        UintType(INT_TYPE = "size_t",              INT_TYPE_ABBR = "size_t",     INT_MIN = "0",   INT_MAX = "SIZE_MAX"),
        UintType(INT_TYPE = "uint_fast8_t",       INT_TYPE_ABBR = "u8_fast",  INT_MIN = "0",      INT_MAX = "GUF_UINT8_MAX"), 
        UintType(INT_TYPE = "uint_fast16_t",      INT_TYPE_ABBR = "u16_fast", INT_MIN = "0",      INT_MAX = "GUF_UINT16_MAX"), 
        UintType(INT_TYPE = "uint_fast32_t",      INT_TYPE_ABBR = "u32_fast", INT_MIN = "0",      INT_MAX = "GUF_UINT32_MAX"), 
        UintType(INT_TYPE = "uint_fast64_t",      INT_TYPE_ABBR = "u64_fast", INT_MIN = "0",      INT_MAX = "GUF_UINT64_MAX"), 
        UintType(INT_TYPE = "uint8_t",             INT_TYPE_ABBR = "u8",         INT_MIN = "0",   INT_MAX = "UINT8_MAX",  is_optional=True), 
        UintType(INT_TYPE = "uint16_t",            INT_TYPE_ABBR = "u16",        INT_MIN = "0",   INT_MAX = "UINT16_MAX", is_optional=True), 
        UintType(INT_TYPE = "uint32_t",            INT_TYPE_ABBR = "u32",        INT_MIN = "0",   INT_MAX = "UINT32_MAX", is_optional=True), 
        UintType(INT_TYPE = "uint64_t",            INT_TYPE_ABBR = "u64",        INT_MIN = "0",   INT_MAX = "UINT64_MAX", is_optional=True), 
    ]