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#import "Basic";
#import "Compiler";
#import "Math";
// TODO Comparing implementaitons using dump
#run test_math_ext();
test_math_ext :: () { set_build_options_dc(.{do_output=false});
// main :: () {
write_strings("=====================\n", "--- Test Math_Ext ---\n");
// Different signals: only works if signaled variable is higher.
/*
#run cena();
cena :: () {
a: s64 = -232;
b: u32 = 4;
c := a+b;
print("\n\n--- --- ---\ntttt : % : % + % = %\n--- --- ---\n\n", type_of(c), a, b, c);
}
*/
test_op :: (op: string, x: $Tx, y: $Ty, r: $Tr, t: Type, o: bool) -> errors_found: int #expand {
#import "String";
#insert #run replace("tr, to := OP(cast(Tx)x, cast(Ty)y);", "OP", op);
print("%_%(%, %) = % : %\n", op, t, x, y, r, o);
error := 0;
if r != tr { error += 1; print(" > incorrect result value: got % expected %\n", tr, r); };
if t != type_of(tr) { error += 1; print(" > incorrect result type: got % expected %\n", type_of(tr), t); };
if o != to { error += 1; print(" > incorrect overflow flag: got % expected %\n", to, o); };
return error;
}
errors := 0;
// Test signed add.
errors += test_op("add", cast( s8) S8_MAX, cast( s8)1, S8_MAX, s8, true);
errors += test_op("add", cast(s16)S16_MAX, cast( u8)1, S16_MAX, s16, true);
errors += test_op("add", cast(s32)S32_MAX, cast(s32)1, S32_MAX, s32, true);
errors += test_op("add", cast(s64)S64_MAX, cast(u32)1, S64_MAX, s64, true);
errors += test_op("add", cast( s8) S8_MAX, cast( s8) S8_MIN, -1, s8, false);
errors += test_op("add", cast(s16)S16_MAX, cast(s16)S16_MIN, -1, s16, false);
errors += test_op("add", cast(s32)S32_MAX, cast(s32)S32_MIN, -1, s32, false);
errors += test_op("add", cast(s64)S64_MAX, cast(s64)S64_MIN, -1, s64, false);
// Test unsigned add.
errors += test_op("add", cast( u8) U8_MAX, cast( u8)1, U8_MAX, u8, true);
errors += test_op("add", cast(u16)U16_MAX, cast(u16)1, U16_MAX, u16, true);
errors += test_op("add", cast(u32)U32_MAX, cast(u32)1, U32_MAX, u32, true);
errors += test_op("add", cast(u64)U64_MAX, cast(u64)1, U64_MAX, u64, true);
errors += test_op("add", cast( u8) U8_MAX, cast( u8)0, U8_MAX, u8, false);
errors += test_op("add", cast(u16)U16_MAX, cast(u16)0, U16_MAX, u16, false);
errors += test_op("add", cast(u32)U32_MAX, cast(u32)0, U32_MAX, u32, false);
errors += test_op("add", cast(u64)U64_MAX, cast(u64)0, U64_MAX, u64, false);
// Test signed sub.
errors += test_op("sub", cast( s8) S8_MIN, cast( s8)1, S8_MIN, s8, true);
errors += test_op("sub", cast(s16)S16_MIN, cast( u8)1, S16_MIN, s16, true);
errors += test_op("sub", cast(s32)S32_MIN, cast(s32)1, S32_MIN, s32, true);
errors += test_op("sub", cast(s64)S64_MIN, cast(u32)1, S64_MIN, s64, true);
errors += test_op("sub", cast( s8)-1, cast( s8) S8_MAX, S8_MIN, s8, false);
errors += test_op("sub", cast(s16)-1, cast(s16)S16_MAX, S16_MIN, s16, false);
errors += test_op("sub", cast(s32)-1, cast(s32)S32_MAX, S32_MIN, s32, false);
errors += test_op("sub", cast(s64)-1, cast(s64)S64_MAX, S64_MIN, s64, false);
// Test unsigned sub.
errors += test_op("sub", cast( u8)1, cast( u8) U8_MAX, 0, u8, true);
errors += test_op("sub", cast(u16)1, cast(u16)U16_MAX, 0, u16, true);
errors += test_op("sub", cast(u32)1, cast(u32)U32_MAX, 0, u32, true);
errors += test_op("sub", cast(u64)1, cast(u64)U64_MAX, 0, u64, true);
errors += test_op("sub", cast( u8) U8_MAX, cast( u8)0, U8_MAX, u8, false);
errors += test_op("sub", cast(u16)U16_MAX, cast(u16)0, U16_MAX, u16, false);
errors += test_op("sub", cast(u32)U32_MAX, cast(u32)0, U32_MAX, u32, false);
errors += test_op("sub", cast(u64)U64_MAX, cast(u64)0, U64_MAX, u64, false);
// errors += test_add(cast(s32)66, cast(s64)-2, 64, s64, false);
// errors += test_add(cast(u32)66, cast(s64)4, 70, s64, false);
// errors += test_add(cast(s32)S32_MAX, cast(s64)1, 2147483648, s64, false);
// errors += test_add(cast(s32)S32_MAX, cast(s32)1, S32_MAX, s32, true);
// errors += test_add(cast(s64)S64_MAX, cast(s64)0, S64_MAX, s64, false);
// errors += test_add(cast(s64)9223372036854775806, cast(s64)1, S64_MAX, s64, false);
// errors += test_add(cast(s64)9223372036854775806, cast(s64)2, S64_MAX, s64, true);
// errors += test_add(cast(u8)7, cast(u8)1, 8, u8, false);
// errors += test_add(cast(u8)U8_MAX, cast(u8)1, U8_MAX, u8, true);
// errors += test_add(cast(u16)10, cast(u8)3, 13, u16, false);
// errors += test_add(cast(u8)1, cast(u16)U16_MAX, U16_MAX, u16, true);
if errors > 0 print("# Found % %!\n", errors, ifx errors == 1 then "error" else "errors"); else print(" No errors found.\n");
/* PERFORMANCE TEST
#import "Random";
best_generic: float;
best_asm: float;
for 0..100 {
size, time_generic, time_asm := performance_test();
perf_generic := cast(float)size/cast(float)to_microseconds(time_generic);
perf_asm := cast(float)size/cast(float)to_microseconds(time_asm);
best_generic = max(best_generic, perf_generic);
best_asm = max(best_asm, perf_asm);
}
print("method : ops/usec\ngeneric : %\nasm : %\n", best_generic, best_asm);
performance_test :: () -> sum_size: s64, time_generic: Apollo_Time, time_asm: Apollo_Time {
SUM_SIZE := 2000000;
numbers: [..] s64;
array_reserve(*numbers, SUM_SIZE);
for 0..SUM_SIZE-1 {
array_add(*numbers, cast(s64)random_get());
}
sum := 0;
start := current_time_monotonic();
for numbers sum = add_bad(sum, it);
time := current_time_monotonic() - start;
sum_asm := 0;
start_asm := current_time_monotonic();
for numbers sum_asm = add(sum_asm, it);
time_asm := current_time_monotonic() - start_asm;
assert(sum == sum_asm);
return SUM_SIZE, time, time_asm;
}
*/
}
INTEGER_ARITHMETIC_TYPES_CHECK :: #string DONE
type_info_x := cast(*Type_Info)Tx;
type_info_y := cast(*Type_Info)Ty;
if type_info_x.type != .INTEGER || type_info_y.type != .INTEGER return false, "Non integers values passed.";
tx := cast(*Type_Info_Integer)type_info_x;
ty := cast(*Type_Info_Integer)type_info_y;
largest_type :=
ifx tx.runtime_size > ty.runtime_size then Tx else
ifx ty.runtime_size > tx.runtime_size then Ty else
ifx tx.signed == ty.signed then Tx else
void;
// Only allow to add different signedness values if largest type is the signed one (as in JAI).
if tx.signed == ty.signed {
Tx = largest_type;
Ty = largest_type;
Tr = largest_type;
}
else if tx.signed && Tx == largest_type {
Ty = largest_type;
Tr = largest_type;
}
else if ty.signed && Ty == largest_type {
Tx = largest_type;
Tr = largest_type;
}
else return false, "Number signedness mismatch.";
return true;
DONE
add :: (x: $Tx, y: $Ty) -> result: $Tr, saturated: bool #modify { #insert INTEGER_ARITHMETIC_TYPES_CHECK; } // #dump
{
#if CPU != .X64 {
#if Tr == s8 || Tr == s16 || Tr == s32 || Tr == s64 {
#if Tr == s8 { MAX :: S8_MAX; MIN :: S8_MIN; }
#if Tr == s16 { MAX :: S16_MAX; MIN :: S16_MIN; }
#if Tr == s32 { MAX :: S32_MAX; MIN :: S32_MIN; }
#if Tr == s64 { MAX :: S64_MAX; MIN :: S64_MIN; }
if (y > 0 && x > MAX - y) then return MAX, true;
if (y < 0 && x < MIN - y) then return MIN, true;
return x + y, false;
} else {
#if Tr == u8 { MAX :: U8_MAX; }
#if Tr == u16 { MAX :: U16_MAX; }
#if Tr == u32 { MAX :: U32_MAX; }
#if Tr == u64 { MAX :: U64_MAX; }
if (x > MAX - y) then return MAX, true;
return x + y, false;
}
} else {
#import "String";
result: Tr = ---;
saturated: bool = ---;
S_ADD_ASM :: #string DONE
#asm {
// Calculate limit based on x's sign.
mov limit: gpr, MAX;
mov sign: gpr, x;
shr.SIZE sign, BITS;
add.SIZE limit, sign;
mov result, x;
add.SIZE result, y;
seto saturated;
cmovo result, limit;
}
DONE
#if Tr == s8
#insert #run replace(replace(replace(S_ADD_ASM, ".SIZE", ".b"), "MAX", "127"), "BITS", "7");
#if Tr == s16
#insert #run replace(replace(replace(S_ADD_ASM, ".SIZE", ".w"), "MAX", "32767"), "BITS", "15");
#if Tr == s32
#insert #run replace(replace(replace(S_ADD_ASM, ".SIZE", ".d"), "MAX", "2147483647"), "BITS", "31");
#if Tr == s64
#insert #run replace(replace(replace(S_ADD_ASM, ".SIZE", ".q"), "MAX", "9223372036854775807"), "BITS", "63");
U_ADD_ASM :: #string DONE
#asm {
mov limit: gpr, MAX;
mov result, x;
add.SIZE result, y;
setc saturated;
cmovc result, limit;
}
DONE
#if Tr == u8
#insert #run replace(replace(U_ADD_ASM, ".SIZE", ".b"), "MAX", "255");
#if Tr == u16
#insert #run replace(replace(U_ADD_ASM, ".SIZE", ".w"), "MAX", "65535");
#if Tr == u32
#insert #run replace(replace(U_ADD_ASM, ".SIZE", ".d"), "MAX", "4294967295");
#if Tr == u64
#insert #run replace(replace(U_ADD_ASM, ".SIZE", ".q"), "MAX", "18446744073709551615");
return result, saturated;
}
}
sub :: (x: $Tx, y: $Ty) -> result: $Tr, overflow: bool #modify { #insert INTEGER_ARITHMETIC_TYPES_CHECK; } //#dump
{
#if CPU != .X64 {
#if Tr == s8 || Tr == s16 || Tr == s32 || Tr == s64 {
#if Tr == s8 { MAX :: S8_MAX; MIN :: S8_MIN; }
#if Tr == s16 { MAX :: S16_MAX; MIN :: S16_MIN; }
#if Tr == s32 { MAX :: S32_MAX; MIN :: S32_MIN; }
#if Tr == s64 { MAX :: S64_MAX; MIN :: S64_MIN; }
if (y < 0 && x > MAX + y) then return MAX, true;
if (y > 0 && x < MIN + y) then return MIN, true;
return x - y, false;
} else {
if (y > x) then return 0, true;
return x - y, false;
}
} else {
#import "String";
result: Tr = ---;
saturated: bool = ---;
S_SUB_ASM :: #string DONE
#asm {
// Calculate limit based on x's sign.
mov limit: gpr, MAX;
mov sign: gpr, x;
shr.SIZE sign, BITS;
add.SIZE limit, sign;
mov result, x;
sub.SIZE result, y;
seto saturated;
cmovo result, limit;
}
DONE
#if Tr == s8
#insert #run replace(replace(replace(S_SUB_ASM, ".SIZE", ".b"), "MAX", "127"), "BITS", "7");
#if Tr == s16
#insert #run replace(replace(replace(S_SUB_ASM, ".SIZE", ".w"), "MAX", "32767"), "BITS", "15");
#if Tr == s32
#insert #run replace(replace(replace(S_SUB_ASM, ".SIZE", ".d"), "MAX", "2147483647"), "BITS", "31");
#if Tr == s64
#insert #run replace(replace(replace(S_SUB_ASM, ".SIZE", ".q"), "MAX", "9223372036854775807"), "BITS", "63");
U_SUB_ASM :: #string DONE
#asm {
mov limit: gpr, 0;
mov result, x;
sub.SIZE result, y;
setc saturated;
cmovc result, limit;
}
DONE
#if Tr == u8
#insert #run replace(U_SUB_ASM, ".SIZE", ".b");
#if Tr == u16
#insert #run replace(U_SUB_ASM, ".SIZE", ".w");
#if Tr == u32
#insert #run replace(U_SUB_ASM, ".SIZE", ".d");
#if Tr == u64
#insert #run replace(U_SUB_ASM, ".SIZE", ".q");
return result, saturated;
}
}
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