| // Copyright 2011 the V8 project authors. All rights reserved. |
| // Redistribution and use in source and binary forms, with or without |
| // modification, are permitted provided that the following conditions are |
| // met: |
| // |
| // * Redistributions of source code must retain the above copyright |
| // notice, this list of conditions and the following disclaimer. |
| // * Redistributions in binary form must reproduce the above |
| // copyright notice, this list of conditions and the following |
| // disclaimer in the documentation and/or other materials provided |
| // with the distribution. |
| // * Neither the name of Google Inc. nor the names of its |
| // contributors may be used to endorse or promote products derived |
| // from this software without specific prior written permission. |
| // |
| // THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS |
| // "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT |
| // LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR |
| // A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT |
| // OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, |
| // SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT |
| // LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, |
| // DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY |
| // THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT |
| // (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE |
| // OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. |
| |
| #include "v8.h" |
| |
| #include "disassembler.h" |
| #include "factory.h" |
| #include "macro-assembler.h" |
| #include "mips/macro-assembler-mips.h" |
| #include "mips/simulator-mips.h" |
| |
| #include "cctest.h" |
| |
| using namespace v8::internal; |
| |
| |
| // Define these function prototypes to match JSEntryFunction in execution.cc. |
| typedef Object* (*F1)(int x, int p1, int p2, int p3, int p4); |
| typedef Object* (*F2)(int x, int y, int p2, int p3, int p4); |
| typedef Object* (*F3)(void* p, int p1, int p2, int p3, int p4); |
| |
| |
| static v8::Persistent<v8::Context> env; |
| |
| |
| static void InitializeVM() { |
| // Disable compilation of natives. |
| FLAG_disable_native_files = true; |
| |
| if (env.IsEmpty()) { |
| env = v8::Context::New(); |
| } |
| } |
| |
| |
| #define __ assm. |
| |
| |
| TEST(MIPS0) { |
| InitializeVM(); |
| v8::HandleScope scope; |
| |
| MacroAssembler assm(Isolate::Current(), NULL, 0); |
| |
| // Addition. |
| __ addu(v0, a0, a1); |
| __ jr(ra); |
| __ nop(); |
| |
| CodeDesc desc; |
| assm.GetCode(&desc); |
| Object* code = HEAP->CreateCode( |
| desc, |
| Code::ComputeFlags(Code::STUB), |
| Handle<Object>(HEAP->undefined_value()))->ToObjectChecked(); |
| CHECK(code->IsCode()); |
| F2 f = FUNCTION_CAST<F2>(Code::cast(code)->entry()); |
| int res = reinterpret_cast<int>(CALL_GENERATED_CODE(f, 0xab0, 0xc, 0, 0, 0)); |
| ::printf("f() = %d\n", res); |
| CHECK_EQ(0xabc, res); |
| } |
| |
| |
| TEST(MIPS1) { |
| InitializeVM(); |
| v8::HandleScope scope; |
| |
| MacroAssembler assm(Isolate::Current(), NULL, 0); |
| Label L, C; |
| |
| __ mov(a1, a0); |
| __ li(v0, 0); |
| __ b(&C); |
| __ nop(); |
| |
| __ bind(&L); |
| __ addu(v0, v0, a1); |
| __ addiu(a1, a1, -1); |
| |
| __ bind(&C); |
| __ xori(v1, a1, 0); |
| __ Branch(&L, ne, v1, Operand(0)); |
| __ nop(); |
| |
| __ jr(ra); |
| __ nop(); |
| |
| CodeDesc desc; |
| assm.GetCode(&desc); |
| Object* code = HEAP->CreateCode( |
| desc, |
| Code::ComputeFlags(Code::STUB), |
| Handle<Object>(HEAP->undefined_value()))->ToObjectChecked(); |
| CHECK(code->IsCode()); |
| F1 f = FUNCTION_CAST<F1>(Code::cast(code)->entry()); |
| int res = reinterpret_cast<int>(CALL_GENERATED_CODE(f, 50, 0, 0, 0, 0)); |
| ::printf("f() = %d\n", res); |
| CHECK_EQ(1275, res); |
| } |
| |
| |
| TEST(MIPS2) { |
| InitializeVM(); |
| v8::HandleScope scope; |
| |
| MacroAssembler assm(Isolate::Current(), NULL, 0); |
| |
| Label exit, error; |
| |
| // ----- Test all instructions. |
| |
| // Test lui, ori, and addiu, used in the li pseudo-instruction. |
| // This way we can then safely load registers with chosen values. |
| |
| __ ori(t0, zero_reg, 0); |
| __ lui(t0, 0x1234); |
| __ ori(t0, t0, 0); |
| __ ori(t0, t0, 0x0f0f); |
| __ ori(t0, t0, 0xf0f0); |
| __ addiu(t1, t0, 1); |
| __ addiu(t2, t1, -0x10); |
| |
| // Load values in temporary registers. |
| __ li(t0, 0x00000004); |
| __ li(t1, 0x00001234); |
| __ li(t2, 0x12345678); |
| __ li(t3, 0x7fffffff); |
| __ li(t4, 0xfffffffc); |
| __ li(t5, 0xffffedcc); |
| __ li(t6, 0xedcba988); |
| __ li(t7, 0x80000000); |
| |
| // SPECIAL class. |
| __ srl(v0, t2, 8); // 0x00123456 |
| __ sll(v0, v0, 11); // 0x91a2b000 |
| __ sra(v0, v0, 3); // 0xf2345600 |
| __ srav(v0, v0, t0); // 0xff234560 |
| __ sllv(v0, v0, t0); // 0xf2345600 |
| __ srlv(v0, v0, t0); // 0x0f234560 |
| __ Branch(&error, ne, v0, Operand(0x0f234560)); |
| __ nop(); |
| |
| __ addu(v0, t0, t1); // 0x00001238 |
| __ subu(v0, v0, t0); // 0x00001234 |
| __ Branch(&error, ne, v0, Operand(0x00001234)); |
| __ nop(); |
| __ addu(v1, t3, t0); |
| __ Branch(&error, ne, v1, Operand(0x80000003)); |
| __ nop(); |
| __ subu(v1, t7, t0); // 0x7ffffffc |
| __ Branch(&error, ne, v1, Operand(0x7ffffffc)); |
| __ nop(); |
| |
| __ and_(v0, t1, t2); // 0x00001230 |
| __ or_(v0, v0, t1); // 0x00001234 |
| __ xor_(v0, v0, t2); // 0x1234444c |
| __ nor(v0, v0, t2); // 0xedcba987 |
| __ Branch(&error, ne, v0, Operand(0xedcba983)); |
| __ nop(); |
| |
| __ slt(v0, t7, t3); |
| __ Branch(&error, ne, v0, Operand(0x1)); |
| __ nop(); |
| __ sltu(v0, t7, t3); |
| __ Branch(&error, ne, v0, Operand(0x0)); |
| __ nop(); |
| // End of SPECIAL class. |
| |
| __ addiu(v0, zero_reg, 0x7421); // 0x00007421 |
| __ addiu(v0, v0, -0x1); // 0x00007420 |
| __ addiu(v0, v0, -0x20); // 0x00007400 |
| __ Branch(&error, ne, v0, Operand(0x00007400)); |
| __ nop(); |
| __ addiu(v1, t3, 0x1); // 0x80000000 |
| __ Branch(&error, ne, v1, Operand(0x80000000)); |
| __ nop(); |
| |
| __ slti(v0, t1, 0x00002000); // 0x1 |
| __ slti(v0, v0, 0xffff8000); // 0x0 |
| __ Branch(&error, ne, v0, Operand(0x0)); |
| __ nop(); |
| __ sltiu(v0, t1, 0x00002000); // 0x1 |
| __ sltiu(v0, v0, 0x00008000); // 0x1 |
| __ Branch(&error, ne, v0, Operand(0x1)); |
| __ nop(); |
| |
| __ andi(v0, t1, 0xf0f0); // 0x00001030 |
| __ ori(v0, v0, 0x8a00); // 0x00009a30 |
| __ xori(v0, v0, 0x83cc); // 0x000019fc |
| __ Branch(&error, ne, v0, Operand(0x000019fc)); |
| __ nop(); |
| __ lui(v1, 0x8123); // 0x81230000 |
| __ Branch(&error, ne, v1, Operand(0x81230000)); |
| __ nop(); |
| |
| // Bit twiddling instructions & conditional moves. |
| // Uses t0-t7 as set above. |
| __ clz(v0, t0); // 29 |
| __ clz(v1, t1); // 19 |
| __ addu(v0, v0, v1); // 48 |
| __ clz(v1, t2); // 3 |
| __ addu(v0, v0, v1); // 51 |
| __ clz(v1, t7); // 0 |
| __ addu(v0, v0, v1); // 51 |
| __ Branch(&error, ne, v0, Operand(51)); |
| __ movn(a0, t3, t0); // Move a0<-t3 (t0 is NOT 0). |
| __ Ins(a0, t1, 12, 8); // 0x7ff34fff |
| __ Branch(&error, ne, a0, Operand(0x7ff34fff)); |
| __ movz(a0, t6, t7); // a0 not updated (t7 is NOT 0). |
| __ Ext(a1, a0, 8, 12); // 0x34f |
| __ Branch(&error, ne, a1, Operand(0x34f)); |
| __ movz(a0, t6, v1); // a0<-t6, v0 is 0, from 8 instr back. |
| __ Branch(&error, ne, a0, Operand(t6)); |
| |
| // Everything was correctly executed. Load the expected result. |
| __ li(v0, 0x31415926); |
| __ b(&exit); |
| __ nop(); |
| |
| __ bind(&error); |
| // Got an error. Return a wrong result. |
| __ li(v0, 666); |
| |
| __ bind(&exit); |
| __ jr(ra); |
| __ nop(); |
| |
| CodeDesc desc; |
| assm.GetCode(&desc); |
| Object* code = HEAP->CreateCode( |
| desc, |
| Code::ComputeFlags(Code::STUB), |
| Handle<Object>(HEAP->undefined_value()))->ToObjectChecked(); |
| CHECK(code->IsCode()); |
| F2 f = FUNCTION_CAST<F2>(Code::cast(code)->entry()); |
| int res = reinterpret_cast<int>(CALL_GENERATED_CODE(f, 0xab0, 0xc, 0, 0, 0)); |
| ::printf("f() = %d\n", res); |
| CHECK_EQ(0x31415926, res); |
| } |
| |
| |
| TEST(MIPS3) { |
| // Test floating point instructions. |
| InitializeVM(); |
| v8::HandleScope scope; |
| |
| typedef struct { |
| double a; |
| double b; |
| double c; |
| double d; |
| double e; |
| double f; |
| double g; |
| } T; |
| T t; |
| |
| // Create a function that accepts &t, and loads, manipulates, and stores |
| // the doubles t.a ... t.f. |
| MacroAssembler assm(Isolate::Current(), NULL, 0); |
| Label L, C; |
| |
| if (CpuFeatures::IsSupported(FPU)) { |
| CpuFeatures::Scope scope(FPU); |
| |
| __ ldc1(f4, MemOperand(a0, OFFSET_OF(T, a)) ); |
| __ ldc1(f6, MemOperand(a0, OFFSET_OF(T, b)) ); |
| __ add_d(f8, f4, f6); |
| __ sdc1(f8, MemOperand(a0, OFFSET_OF(T, c)) ); // c = a + b. |
| |
| __ mov_d(f10, f8); // c |
| __ neg_d(f12, f6); // -b |
| __ sub_d(f10, f10, f12); |
| __ sdc1(f10, MemOperand(a0, OFFSET_OF(T, d)) ); // d = c - (-b). |
| |
| __ sdc1(f4, MemOperand(a0, OFFSET_OF(T, b)) ); // b = a. |
| |
| __ li(t0, 120); |
| __ mtc1(t0, f14); |
| __ cvt_d_w(f14, f14); // f14 = 120.0. |
| __ mul_d(f10, f10, f14); |
| __ sdc1(f10, MemOperand(a0, OFFSET_OF(T, e)) ); // e = d * 120 = 1.8066e16. |
| |
| __ div_d(f12, f10, f4); |
| __ sdc1(f12, MemOperand(a0, OFFSET_OF(T, f)) ); // f = e / a = 120.44. |
| |
| __ sqrt_d(f14, f12); |
| __ sdc1(f14, MemOperand(a0, OFFSET_OF(T, g)) ); |
| // g = sqrt(f) = 10.97451593465515908537 |
| |
| __ jr(ra); |
| __ nop(); |
| |
| CodeDesc desc; |
| assm.GetCode(&desc); |
| Object* code = HEAP->CreateCode( |
| desc, |
| Code::ComputeFlags(Code::STUB), |
| Handle<Object>(HEAP->undefined_value()))->ToObjectChecked(); |
| CHECK(code->IsCode()); |
| F3 f = FUNCTION_CAST<F3>(Code::cast(code)->entry()); |
| t.a = 1.5e14; |
| t.b = 2.75e11; |
| t.c = 0.0; |
| t.d = 0.0; |
| t.e = 0.0; |
| t.f = 0.0; |
| Object* dummy = CALL_GENERATED_CODE(f, &t, 0, 0, 0, 0); |
| USE(dummy); |
| CHECK_EQ(1.5e14, t.a); |
| CHECK_EQ(1.5e14, t.b); |
| CHECK_EQ(1.50275e14, t.c); |
| CHECK_EQ(1.50550e14, t.d); |
| CHECK_EQ(1.8066e16, t.e); |
| CHECK_EQ(120.44, t.f); |
| CHECK_EQ(10.97451593465515908537, t.g); |
| } |
| } |
| |
| |
| TEST(MIPS4) { |
| // Test moves between floating point and integer registers. |
| InitializeVM(); |
| v8::HandleScope scope; |
| |
| typedef struct { |
| double a; |
| double b; |
| double c; |
| } T; |
| T t; |
| |
| Assembler assm(Isolate::Current(), NULL, 0); |
| Label L, C; |
| |
| if (CpuFeatures::IsSupported(FPU)) { |
| CpuFeatures::Scope scope(FPU); |
| |
| __ ldc1(f4, MemOperand(a0, OFFSET_OF(T, a)) ); |
| __ ldc1(f6, MemOperand(a0, OFFSET_OF(T, b)) ); |
| |
| // Swap f4 and f6, by using four integer registers, t0-t3. |
| __ mfc1(t0, f4); |
| __ mfc1(t1, f5); |
| __ mfc1(t2, f6); |
| __ mfc1(t3, f7); |
| |
| __ mtc1(t0, f6); |
| __ mtc1(t1, f7); |
| __ mtc1(t2, f4); |
| __ mtc1(t3, f5); |
| |
| // Store the swapped f4 and f5 back to memory. |
| __ sdc1(f4, MemOperand(a0, OFFSET_OF(T, a)) ); |
| __ sdc1(f6, MemOperand(a0, OFFSET_OF(T, c)) ); |
| |
| __ jr(ra); |
| __ nop(); |
| |
| CodeDesc desc; |
| assm.GetCode(&desc); |
| Object* code = HEAP->CreateCode( |
| desc, |
| Code::ComputeFlags(Code::STUB), |
| Handle<Object>(HEAP->undefined_value()))->ToObjectChecked(); |
| CHECK(code->IsCode()); |
| F3 f = FUNCTION_CAST<F3>(Code::cast(code)->entry()); |
| t.a = 1.5e22; |
| t.b = 2.75e11; |
| t.c = 17.17; |
| Object* dummy = CALL_GENERATED_CODE(f, &t, 0, 0, 0, 0); |
| USE(dummy); |
| |
| CHECK_EQ(2.75e11, t.a); |
| CHECK_EQ(2.75e11, t.b); |
| CHECK_EQ(1.5e22, t.c); |
| } |
| } |
| |
| |
| TEST(MIPS5) { |
| // Test conversions between doubles and integers. |
| InitializeVM(); |
| v8::HandleScope scope; |
| |
| typedef struct { |
| double a; |
| double b; |
| int i; |
| int j; |
| } T; |
| T t; |
| |
| Assembler assm(Isolate::Current(), NULL, 0); |
| Label L, C; |
| |
| if (CpuFeatures::IsSupported(FPU)) { |
| CpuFeatures::Scope scope(FPU); |
| |
| // Load all structure elements to registers. |
| __ ldc1(f4, MemOperand(a0, OFFSET_OF(T, a)) ); |
| __ ldc1(f6, MemOperand(a0, OFFSET_OF(T, b)) ); |
| __ lw(t0, MemOperand(a0, OFFSET_OF(T, i)) ); |
| __ lw(t1, MemOperand(a0, OFFSET_OF(T, j)) ); |
| |
| // Convert double in f4 to int in element i. |
| __ cvt_w_d(f8, f4); |
| __ mfc1(t2, f8); |
| __ sw(t2, MemOperand(a0, OFFSET_OF(T, i)) ); |
| |
| // Convert double in f6 to int in element j. |
| __ cvt_w_d(f10, f6); |
| __ mfc1(t3, f10); |
| __ sw(t3, MemOperand(a0, OFFSET_OF(T, j)) ); |
| |
| // Convert int in original i (t0) to double in a. |
| __ mtc1(t0, f12); |
| __ cvt_d_w(f0, f12); |
| __ sdc1(f0, MemOperand(a0, OFFSET_OF(T, a)) ); |
| |
| // Convert int in original j (t1) to double in b. |
| __ mtc1(t1, f14); |
| __ cvt_d_w(f2, f14); |
| __ sdc1(f2, MemOperand(a0, OFFSET_OF(T, b)) ); |
| |
| __ jr(ra); |
| __ nop(); |
| |
| CodeDesc desc; |
| assm.GetCode(&desc); |
| Object* code = HEAP->CreateCode( |
| desc, |
| Code::ComputeFlags(Code::STUB), |
| Handle<Object>(HEAP->undefined_value()))->ToObjectChecked(); |
| CHECK(code->IsCode()); |
| F3 f = FUNCTION_CAST<F3>(Code::cast(code)->entry()); |
| t.a = 1.5e4; |
| t.b = 2.75e8; |
| t.i = 12345678; |
| t.j = -100000; |
| Object* dummy = CALL_GENERATED_CODE(f, &t, 0, 0, 0, 0); |
| USE(dummy); |
| |
| CHECK_EQ(12345678.0, t.a); |
| CHECK_EQ(-100000.0, t.b); |
| CHECK_EQ(15000, t.i); |
| CHECK_EQ(275000000, t.j); |
| } |
| } |
| |
| |
| TEST(MIPS6) { |
| // Test simple memory loads and stores. |
| InitializeVM(); |
| v8::HandleScope scope; |
| |
| typedef struct { |
| uint32_t ui; |
| int32_t si; |
| int32_t r1; |
| int32_t r2; |
| int32_t r3; |
| int32_t r4; |
| int32_t r5; |
| int32_t r6; |
| } T; |
| T t; |
| |
| Assembler assm(Isolate::Current(), NULL, 0); |
| Label L, C; |
| |
| // Basic word load/store. |
| __ lw(t0, MemOperand(a0, OFFSET_OF(T, ui)) ); |
| __ sw(t0, MemOperand(a0, OFFSET_OF(T, r1)) ); |
| |
| // lh with positive data. |
| __ lh(t1, MemOperand(a0, OFFSET_OF(T, ui)) ); |
| __ sw(t1, MemOperand(a0, OFFSET_OF(T, r2)) ); |
| |
| // lh with negative data. |
| __ lh(t2, MemOperand(a0, OFFSET_OF(T, si)) ); |
| __ sw(t2, MemOperand(a0, OFFSET_OF(T, r3)) ); |
| |
| // lhu with negative data. |
| __ lhu(t3, MemOperand(a0, OFFSET_OF(T, si)) ); |
| __ sw(t3, MemOperand(a0, OFFSET_OF(T, r4)) ); |
| |
| // lb with negative data. |
| __ lb(t4, MemOperand(a0, OFFSET_OF(T, si)) ); |
| __ sw(t4, MemOperand(a0, OFFSET_OF(T, r5)) ); |
| |
| // sh writes only 1/2 of word. |
| __ lui(t5, 0x3333); |
| __ ori(t5, t5, 0x3333); |
| __ sw(t5, MemOperand(a0, OFFSET_OF(T, r6)) ); |
| __ lhu(t5, MemOperand(a0, OFFSET_OF(T, si)) ); |
| __ sh(t5, MemOperand(a0, OFFSET_OF(T, r6)) ); |
| |
| __ jr(ra); |
| __ nop(); |
| |
| CodeDesc desc; |
| assm.GetCode(&desc); |
| Object* code = HEAP->CreateCode( |
| desc, |
| Code::ComputeFlags(Code::STUB), |
| Handle<Object>(HEAP->undefined_value()))->ToObjectChecked(); |
| CHECK(code->IsCode()); |
| F3 f = FUNCTION_CAST<F3>(Code::cast(code)->entry()); |
| t.ui = 0x11223344; |
| t.si = 0x99aabbcc; |
| Object* dummy = CALL_GENERATED_CODE(f, &t, 0, 0, 0, 0); |
| USE(dummy); |
| |
| CHECK_EQ(0x11223344, t.r1); |
| CHECK_EQ(0x3344, t.r2); |
| CHECK_EQ(0xffffbbcc, t.r3); |
| CHECK_EQ(0x0000bbcc, t.r4); |
| CHECK_EQ(0xffffffcc, t.r5); |
| CHECK_EQ(0x3333bbcc, t.r6); |
| } |
| |
| |
| TEST(MIPS7) { |
| // Test floating point compare and branch instructions. |
| InitializeVM(); |
| v8::HandleScope scope; |
| |
| typedef struct { |
| double a; |
| double b; |
| double c; |
| double d; |
| double e; |
| double f; |
| int32_t result; |
| } T; |
| T t; |
| |
| // Create a function that accepts &t, and loads, manipulates, and stores |
| // the doubles t.a ... t.f. |
| MacroAssembler assm(Isolate::Current(), NULL, 0); |
| Label neither_is_nan, less_than, outa_here; |
| |
| if (CpuFeatures::IsSupported(FPU)) { |
| CpuFeatures::Scope scope(FPU); |
| |
| __ ldc1(f4, MemOperand(a0, OFFSET_OF(T, a)) ); |
| __ ldc1(f6, MemOperand(a0, OFFSET_OF(T, b)) ); |
| __ c(UN, D, f4, f6); |
| __ bc1f(&neither_is_nan); |
| __ nop(); |
| __ sw(zero_reg, MemOperand(a0, OFFSET_OF(T, result)) ); |
| __ Branch(&outa_here); |
| |
| __ bind(&neither_is_nan); |
| |
| __ c(OLT, D, f6, f4, 2); |
| __ bc1t(&less_than, 2); |
| __ nop(); |
| __ sw(zero_reg, MemOperand(a0, OFFSET_OF(T, result)) ); |
| __ Branch(&outa_here); |
| |
| __ bind(&less_than); |
| __ Addu(t0, zero_reg, Operand(1)); |
| __ sw(t0, MemOperand(a0, OFFSET_OF(T, result)) ); // Set true. |
| |
| |
| // This test-case should have additional tests. |
| |
| __ bind(&outa_here); |
| |
| __ jr(ra); |
| __ nop(); |
| |
| CodeDesc desc; |
| assm.GetCode(&desc); |
| Object* code = HEAP->CreateCode( |
| desc, |
| Code::ComputeFlags(Code::STUB), |
| Handle<Object>(HEAP->undefined_value()))->ToObjectChecked(); |
| CHECK(code->IsCode()); |
| F3 f = FUNCTION_CAST<F3>(Code::cast(code)->entry()); |
| t.a = 1.5e14; |
| t.b = 2.75e11; |
| t.c = 2.0; |
| t.d = -4.0; |
| t.e = 0.0; |
| t.f = 0.0; |
| t.result = 0; |
| Object* dummy = CALL_GENERATED_CODE(f, &t, 0, 0, 0, 0); |
| USE(dummy); |
| CHECK_EQ(1.5e14, t.a); |
| CHECK_EQ(2.75e11, t.b); |
| CHECK_EQ(1, t.result); |
| } |
| } |
| |
| |
| TEST(MIPS8) { |
| // Test ROTR and ROTRV instructions. |
| InitializeVM(); |
| v8::HandleScope scope; |
| |
| typedef struct { |
| int32_t input; |
| int32_t result_rotr_4; |
| int32_t result_rotr_8; |
| int32_t result_rotr_12; |
| int32_t result_rotr_16; |
| int32_t result_rotr_20; |
| int32_t result_rotr_24; |
| int32_t result_rotr_28; |
| int32_t result_rotrv_4; |
| int32_t result_rotrv_8; |
| int32_t result_rotrv_12; |
| int32_t result_rotrv_16; |
| int32_t result_rotrv_20; |
| int32_t result_rotrv_24; |
| int32_t result_rotrv_28; |
| } T; |
| T t; |
| |
| MacroAssembler assm(Isolate::Current(), NULL, 0); |
| |
| // Basic word load. |
| __ lw(t0, MemOperand(a0, OFFSET_OF(T, input)) ); |
| |
| // ROTR instruction (called through the Ror macro). |
| __ Ror(t1, t0, 0x0004); |
| __ Ror(t2, t0, 0x0008); |
| __ Ror(t3, t0, 0x000c); |
| __ Ror(t4, t0, 0x0010); |
| __ Ror(t5, t0, 0x0014); |
| __ Ror(t6, t0, 0x0018); |
| __ Ror(t7, t0, 0x001c); |
| |
| // Basic word store. |
| __ sw(t1, MemOperand(a0, OFFSET_OF(T, result_rotr_4)) ); |
| __ sw(t2, MemOperand(a0, OFFSET_OF(T, result_rotr_8)) ); |
| __ sw(t3, MemOperand(a0, OFFSET_OF(T, result_rotr_12)) ); |
| __ sw(t4, MemOperand(a0, OFFSET_OF(T, result_rotr_16)) ); |
| __ sw(t5, MemOperand(a0, OFFSET_OF(T, result_rotr_20)) ); |
| __ sw(t6, MemOperand(a0, OFFSET_OF(T, result_rotr_24)) ); |
| __ sw(t7, MemOperand(a0, OFFSET_OF(T, result_rotr_28)) ); |
| |
| // ROTRV instruction (called through the Ror macro). |
| __ li(t7, 0x0004); |
| __ Ror(t1, t0, t7); |
| __ li(t7, 0x0008); |
| __ Ror(t2, t0, t7); |
| __ li(t7, 0x000C); |
| __ Ror(t3, t0, t7); |
| __ li(t7, 0x0010); |
| __ Ror(t4, t0, t7); |
| __ li(t7, 0x0014); |
| __ Ror(t5, t0, t7); |
| __ li(t7, 0x0018); |
| __ Ror(t6, t0, t7); |
| __ li(t7, 0x001C); |
| __ Ror(t7, t0, t7); |
| |
| // Basic word store. |
| __ sw(t1, MemOperand(a0, OFFSET_OF(T, result_rotrv_4)) ); |
| __ sw(t2, MemOperand(a0, OFFSET_OF(T, result_rotrv_8)) ); |
| __ sw(t3, MemOperand(a0, OFFSET_OF(T, result_rotrv_12)) ); |
| __ sw(t4, MemOperand(a0, OFFSET_OF(T, result_rotrv_16)) ); |
| __ sw(t5, MemOperand(a0, OFFSET_OF(T, result_rotrv_20)) ); |
| __ sw(t6, MemOperand(a0, OFFSET_OF(T, result_rotrv_24)) ); |
| __ sw(t7, MemOperand(a0, OFFSET_OF(T, result_rotrv_28)) ); |
| |
| __ jr(ra); |
| __ nop(); |
| |
| CodeDesc desc; |
| assm.GetCode(&desc); |
| Object* code = HEAP->CreateCode( |
| desc, |
| Code::ComputeFlags(Code::STUB), |
| Handle<Object>(HEAP->undefined_value()))->ToObjectChecked(); |
| CHECK(code->IsCode()); |
| F3 f = FUNCTION_CAST<F3>(Code::cast(code)->entry()); |
| t.input = 0x12345678; |
| Object* dummy = CALL_GENERATED_CODE(f, &t, 0x0, 0, 0, 0); |
| USE(dummy); |
| CHECK_EQ(0x81234567, t.result_rotr_4); |
| CHECK_EQ(0x78123456, t.result_rotr_8); |
| CHECK_EQ(0x67812345, t.result_rotr_12); |
| CHECK_EQ(0x56781234, t.result_rotr_16); |
| CHECK_EQ(0x45678123, t.result_rotr_20); |
| CHECK_EQ(0x34567812, t.result_rotr_24); |
| CHECK_EQ(0x23456781, t.result_rotr_28); |
| |
| CHECK_EQ(0x81234567, t.result_rotrv_4); |
| CHECK_EQ(0x78123456, t.result_rotrv_8); |
| CHECK_EQ(0x67812345, t.result_rotrv_12); |
| CHECK_EQ(0x56781234, t.result_rotrv_16); |
| CHECK_EQ(0x45678123, t.result_rotrv_20); |
| CHECK_EQ(0x34567812, t.result_rotrv_24); |
| CHECK_EQ(0x23456781, t.result_rotrv_28); |
| } |
| |
| |
| TEST(MIPS9) { |
| // Test BRANCH improvements. |
| InitializeVM(); |
| v8::HandleScope scope; |
| |
| MacroAssembler assm(Isolate::Current(), NULL, 0); |
| Label exit, exit2, exit3; |
| |
| __ Branch(&exit, ge, a0, Operand(0x00000000)); |
| __ Branch(&exit2, ge, a0, Operand(0x00001FFF)); |
| __ Branch(&exit3, ge, a0, Operand(0x0001FFFF)); |
| |
| __ bind(&exit); |
| __ bind(&exit2); |
| __ bind(&exit3); |
| __ jr(ra); |
| __ nop(); |
| |
| CodeDesc desc; |
| assm.GetCode(&desc); |
| Object* code = HEAP->CreateCode( |
| desc, |
| Code::ComputeFlags(Code::STUB), |
| Handle<Object>(HEAP->undefined_value()))->ToObjectChecked(); |
| CHECK(code->IsCode()); |
| } |
| |
| |
| TEST(MIPS10) { |
| // Test conversions between doubles and long integers. |
| // Test hos the long ints map to FP regs pairs. |
| InitializeVM(); |
| v8::HandleScope scope; |
| |
| typedef struct { |
| double a; |
| double b; |
| int32_t dbl_mant; |
| int32_t dbl_exp; |
| int32_t long_hi; |
| int32_t long_lo; |
| int32_t b_long_hi; |
| int32_t b_long_lo; |
| } T; |
| T t; |
| |
| Assembler assm(Isolate::Current(), NULL, 0); |
| Label L, C; |
| |
| if (CpuFeatures::IsSupported(FPU)) { |
| CpuFeatures::Scope scope(FPU); |
| |
| // Load all structure elements to registers. |
| __ ldc1(f0, MemOperand(a0, OFFSET_OF(T, a))); |
| |
| // Save the raw bits of the double. |
| __ mfc1(t0, f0); |
| __ mfc1(t1, f1); |
| __ sw(t0, MemOperand(a0, OFFSET_OF(T, dbl_mant))); |
| __ sw(t1, MemOperand(a0, OFFSET_OF(T, dbl_exp))); |
| |
| // Convert double in f0 to long, save hi/lo parts. |
| __ cvt_l_d(f0, f0); |
| __ mfc1(t0, f0); // f0 has LS 32 bits of long. |
| __ mfc1(t1, f1); // f1 has MS 32 bits of long. |
| __ sw(t0, MemOperand(a0, OFFSET_OF(T, long_lo))); |
| __ sw(t1, MemOperand(a0, OFFSET_OF(T, long_hi))); |
| |
| // Convert the b long integers to double b. |
| __ lw(t0, MemOperand(a0, OFFSET_OF(T, b_long_lo))); |
| __ lw(t1, MemOperand(a0, OFFSET_OF(T, b_long_hi))); |
| __ mtc1(t0, f8); // f8 has LS 32-bits. |
| __ mtc1(t1, f9); // f9 has MS 32-bits. |
| __ cvt_d_l(f10, f8); |
| __ sdc1(f10, MemOperand(a0, OFFSET_OF(T, b))); |
| |
| __ jr(ra); |
| __ nop(); |
| |
| CodeDesc desc; |
| assm.GetCode(&desc); |
| Object* code = HEAP->CreateCode( |
| desc, |
| Code::ComputeFlags(Code::STUB), |
| Handle<Object>(HEAP->undefined_value()))->ToObjectChecked(); |
| CHECK(code->IsCode()); |
| F3 f = FUNCTION_CAST<F3>(Code::cast(code)->entry()); |
| t.a = 2.147483647e9; // 0x7fffffff -> 0x41DFFFFFFFC00000 as double. |
| t.b_long_hi = 0x000000ff; // 0xFF00FF00FF -> 0x426FE01FE01FE000 as double. |
| t.b_long_lo = 0x00ff00ff; |
| Object* dummy = CALL_GENERATED_CODE(f, &t, 0, 0, 0, 0); |
| USE(dummy); |
| |
| CHECK_EQ(0x41DFFFFF, t.dbl_exp); |
| CHECK_EQ(0xFFC00000, t.dbl_mant); |
| CHECK_EQ(0, t.long_hi); |
| CHECK_EQ(0x7fffffff, t.long_lo); |
| // 0xFF00FF00FF -> 1.095233372415e12. |
| CHECK_EQ(1.095233372415e12, t.b); |
| } |
| } |
| |
| |
| TEST(MIPS11) { |
| // Test LWL, LWR, SWL and SWR instructions. |
| InitializeVM(); |
| v8::HandleScope scope; |
| |
| typedef struct { |
| int32_t reg_init; |
| int32_t mem_init; |
| int32_t lwl_0; |
| int32_t lwl_1; |
| int32_t lwl_2; |
| int32_t lwl_3; |
| int32_t lwr_0; |
| int32_t lwr_1; |
| int32_t lwr_2; |
| int32_t lwr_3; |
| int32_t swl_0; |
| int32_t swl_1; |
| int32_t swl_2; |
| int32_t swl_3; |
| int32_t swr_0; |
| int32_t swr_1; |
| int32_t swr_2; |
| int32_t swr_3; |
| } T; |
| T t; |
| |
| Assembler assm(Isolate::Current(), NULL, 0); |
| |
| // Test all combinations of LWL and vAddr. |
| __ lw(t0, MemOperand(a0, OFFSET_OF(T, reg_init)) ); |
| __ lwl(t0, MemOperand(a0, OFFSET_OF(T, mem_init)) ); |
| __ sw(t0, MemOperand(a0, OFFSET_OF(T, lwl_0)) ); |
| |
| __ lw(t1, MemOperand(a0, OFFSET_OF(T, reg_init)) ); |
| __ lwl(t1, MemOperand(a0, OFFSET_OF(T, mem_init) + 1) ); |
| __ sw(t1, MemOperand(a0, OFFSET_OF(T, lwl_1)) ); |
| |
| __ lw(t2, MemOperand(a0, OFFSET_OF(T, reg_init)) ); |
| __ lwl(t2, MemOperand(a0, OFFSET_OF(T, mem_init) + 2) ); |
| __ sw(t2, MemOperand(a0, OFFSET_OF(T, lwl_2)) ); |
| |
| __ lw(t3, MemOperand(a0, OFFSET_OF(T, reg_init)) ); |
| __ lwl(t3, MemOperand(a0, OFFSET_OF(T, mem_init) + 3) ); |
| __ sw(t3, MemOperand(a0, OFFSET_OF(T, lwl_3)) ); |
| |
| // Test all combinations of LWR and vAddr. |
| __ lw(t0, MemOperand(a0, OFFSET_OF(T, reg_init)) ); |
| __ lwr(t0, MemOperand(a0, OFFSET_OF(T, mem_init)) ); |
| __ sw(t0, MemOperand(a0, OFFSET_OF(T, lwr_0)) ); |
| |
| __ lw(t1, MemOperand(a0, OFFSET_OF(T, reg_init)) ); |
| __ lwr(t1, MemOperand(a0, OFFSET_OF(T, mem_init) + 1) ); |
| __ sw(t1, MemOperand(a0, OFFSET_OF(T, lwr_1)) ); |
| |
| __ lw(t2, MemOperand(a0, OFFSET_OF(T, reg_init)) ); |
| __ lwr(t2, MemOperand(a0, OFFSET_OF(T, mem_init) + 2) ); |
| __ sw(t2, MemOperand(a0, OFFSET_OF(T, lwr_2)) ); |
| |
| __ lw(t3, MemOperand(a0, OFFSET_OF(T, reg_init)) ); |
| __ lwr(t3, MemOperand(a0, OFFSET_OF(T, mem_init) + 3) ); |
| __ sw(t3, MemOperand(a0, OFFSET_OF(T, lwr_3)) ); |
| |
| // Test all combinations of SWL and vAddr. |
| __ lw(t0, MemOperand(a0, OFFSET_OF(T, mem_init)) ); |
| __ sw(t0, MemOperand(a0, OFFSET_OF(T, swl_0)) ); |
| __ lw(t0, MemOperand(a0, OFFSET_OF(T, reg_init)) ); |
| __ swl(t0, MemOperand(a0, OFFSET_OF(T, swl_0)) ); |
| |
| __ lw(t1, MemOperand(a0, OFFSET_OF(T, mem_init)) ); |
| __ sw(t1, MemOperand(a0, OFFSET_OF(T, swl_1)) ); |
| __ lw(t1, MemOperand(a0, OFFSET_OF(T, reg_init)) ); |
| __ swl(t1, MemOperand(a0, OFFSET_OF(T, swl_1) + 1) ); |
| |
| __ lw(t2, MemOperand(a0, OFFSET_OF(T, mem_init)) ); |
| __ sw(t2, MemOperand(a0, OFFSET_OF(T, swl_2)) ); |
| __ lw(t2, MemOperand(a0, OFFSET_OF(T, reg_init)) ); |
| __ swl(t2, MemOperand(a0, OFFSET_OF(T, swl_2) + 2) ); |
| |
| __ lw(t3, MemOperand(a0, OFFSET_OF(T, mem_init)) ); |
| __ sw(t3, MemOperand(a0, OFFSET_OF(T, swl_3)) ); |
| __ lw(t3, MemOperand(a0, OFFSET_OF(T, reg_init)) ); |
| __ swl(t3, MemOperand(a0, OFFSET_OF(T, swl_3) + 3) ); |
| |
| // Test all combinations of SWR and vAddr. |
| __ lw(t0, MemOperand(a0, OFFSET_OF(T, mem_init)) ); |
| __ sw(t0, MemOperand(a0, OFFSET_OF(T, swr_0)) ); |
| __ lw(t0, MemOperand(a0, OFFSET_OF(T, reg_init)) ); |
| __ swr(t0, MemOperand(a0, OFFSET_OF(T, swr_0)) ); |
| |
| __ lw(t1, MemOperand(a0, OFFSET_OF(T, mem_init)) ); |
| __ sw(t1, MemOperand(a0, OFFSET_OF(T, swr_1)) ); |
| __ lw(t1, MemOperand(a0, OFFSET_OF(T, reg_init)) ); |
| __ swr(t1, MemOperand(a0, OFFSET_OF(T, swr_1) + 1) ); |
| |
| __ lw(t2, MemOperand(a0, OFFSET_OF(T, mem_init)) ); |
| __ sw(t2, MemOperand(a0, OFFSET_OF(T, swr_2)) ); |
| __ lw(t2, MemOperand(a0, OFFSET_OF(T, reg_init)) ); |
| __ swr(t2, MemOperand(a0, OFFSET_OF(T, swr_2) + 2) ); |
| |
| __ lw(t3, MemOperand(a0, OFFSET_OF(T, mem_init)) ); |
| __ sw(t3, MemOperand(a0, OFFSET_OF(T, swr_3)) ); |
| __ lw(t3, MemOperand(a0, OFFSET_OF(T, reg_init)) ); |
| __ swr(t3, MemOperand(a0, OFFSET_OF(T, swr_3) + 3) ); |
| |
| __ jr(ra); |
| __ nop(); |
| |
| CodeDesc desc; |
| assm.GetCode(&desc); |
| Object* code = HEAP->CreateCode( |
| desc, |
| Code::ComputeFlags(Code::STUB), |
| Handle<Object>(HEAP->undefined_value()))->ToObjectChecked(); |
| CHECK(code->IsCode()); |
| F3 f = FUNCTION_CAST<F3>(Code::cast(code)->entry()); |
| t.reg_init = 0xaabbccdd; |
| t.mem_init = 0x11223344; |
| |
| Object* dummy = CALL_GENERATED_CODE(f, &t, 0, 0, 0, 0); |
| USE(dummy); |
| |
| CHECK_EQ(0x44bbccdd, t.lwl_0); |
| CHECK_EQ(0x3344ccdd, t.lwl_1); |
| CHECK_EQ(0x223344dd, t.lwl_2); |
| CHECK_EQ(0x11223344, t.lwl_3); |
| |
| CHECK_EQ(0x11223344, t.lwr_0); |
| CHECK_EQ(0xaa112233, t.lwr_1); |
| CHECK_EQ(0xaabb1122, t.lwr_2); |
| CHECK_EQ(0xaabbcc11, t.lwr_3); |
| |
| CHECK_EQ(0x112233aa, t.swl_0); |
| CHECK_EQ(0x1122aabb, t.swl_1); |
| CHECK_EQ(0x11aabbcc, t.swl_2); |
| CHECK_EQ(0xaabbccdd, t.swl_3); |
| |
| CHECK_EQ(0xaabbccdd, t.swr_0); |
| CHECK_EQ(0xbbccdd44, t.swr_1); |
| CHECK_EQ(0xccdd3344, t.swr_2); |
| CHECK_EQ(0xdd223344, t.swr_3); |
| } |
| |
| |
| TEST(MIPS12) { |
| InitializeVM(); |
| v8::HandleScope scope; |
| |
| typedef struct { |
| int32_t x; |
| int32_t y; |
| int32_t y1; |
| int32_t y2; |
| int32_t y3; |
| int32_t y4; |
| } T; |
| T t; |
| |
| MacroAssembler assm(Isolate::Current(), NULL, 0); |
| |
| __ mov(t6, fp); // Save frame pointer. |
| __ mov(fp, a0); // Access struct T by fp. |
| __ lw(t0, MemOperand(a0, OFFSET_OF(T, y)) ); |
| __ lw(t3, MemOperand(a0, OFFSET_OF(T, y4)) ); |
| |
| __ addu(t1, t0, t3); |
| __ subu(t4, t0, t3); |
| __ nop(); |
| __ push(t0); // These instructions disappear after opt. |
| __ Pop(); |
| __ addu(t0, t0, t0); |
| __ nop(); |
| __ Pop(); // These instructions disappear after opt. |
| __ push(t3); |
| __ nop(); |
| __ push(t3); // These instructions disappear after opt. |
| __ pop(t3); |
| __ nop(); |
| __ push(t3); |
| __ pop(t4); |
| __ nop(); |
| __ sw(t0, MemOperand(fp, OFFSET_OF(T, y)) ); |
| __ lw(t0, MemOperand(fp, OFFSET_OF(T, y)) ); |
| __ nop(); |
| __ sw(t0, MemOperand(fp, OFFSET_OF(T, y)) ); |
| __ lw(t1, MemOperand(fp, OFFSET_OF(T, y)) ); |
| __ nop(); |
| __ push(t1); |
| __ lw(t1, MemOperand(fp, OFFSET_OF(T, y)) ); |
| __ pop(t1); |
| __ nop(); |
| __ push(t1); |
| __ lw(t2, MemOperand(fp, OFFSET_OF(T, y)) ); |
| __ pop(t1); |
| __ nop(); |
| __ push(t1); |
| __ lw(t2, MemOperand(fp, OFFSET_OF(T, y)) ); |
| __ pop(t2); |
| __ nop(); |
| __ push(t2); |
| __ lw(t2, MemOperand(fp, OFFSET_OF(T, y)) ); |
| __ pop(t1); |
| __ nop(); |
| __ push(t1); |
| __ lw(t2, MemOperand(fp, OFFSET_OF(T, y)) ); |
| __ pop(t3); |
| __ nop(); |
| |
| __ mov(fp, t6); |
| __ jr(ra); |
| __ nop(); |
| |
| CodeDesc desc; |
| assm.GetCode(&desc); |
| Object* code = HEAP->CreateCode( |
| desc, |
| Code::ComputeFlags(Code::STUB), |
| Handle<Object>(HEAP->undefined_value()))->ToObjectChecked(); |
| CHECK(code->IsCode()); |
| F3 f = FUNCTION_CAST<F3>(Code::cast(code)->entry()); |
| t.x = 1; |
| t.y = 2; |
| t.y1 = 3; |
| t.y2 = 4; |
| t.y3 = 0XBABA; |
| t.y4 = 0xDEDA; |
| |
| Object* dummy = CALL_GENERATED_CODE(f, &t, 0, 0, 0, 0); |
| USE(dummy); |
| |
| CHECK_EQ(3, t.y1); |
| } |
| |
| |
| TEST(MIPS13) { |
| // Test Cvt_d_uw and Trunc_uw_d macros. |
| InitializeVM(); |
| v8::HandleScope scope; |
| |
| typedef struct { |
| double cvt_big_out; |
| double cvt_small_out; |
| uint32_t trunc_big_out; |
| uint32_t trunc_small_out; |
| uint32_t cvt_big_in; |
| uint32_t cvt_small_in; |
| } T; |
| T t; |
| |
| MacroAssembler assm(Isolate::Current(), NULL, 0); |
| |
| if (CpuFeatures::IsSupported(FPU)) { |
| CpuFeatures::Scope scope(FPU); |
| |
| __ sw(t0, MemOperand(a0, OFFSET_OF(T, cvt_small_in))); |
| __ Cvt_d_uw(f10, t0); |
| __ sdc1(f10, MemOperand(a0, OFFSET_OF(T, cvt_small_out))); |
| |
| __ Trunc_uw_d(f10, f10); |
| __ swc1(f10, MemOperand(a0, OFFSET_OF(T, trunc_small_out))); |
| |
| __ sw(t0, MemOperand(a0, OFFSET_OF(T, cvt_big_in))); |
| __ Cvt_d_uw(f8, t0); |
| __ sdc1(f8, MemOperand(a0, OFFSET_OF(T, cvt_big_out))); |
| |
| __ Trunc_uw_d(f8, f8); |
| __ swc1(f8, MemOperand(a0, OFFSET_OF(T, trunc_big_out))); |
| |
| __ jr(ra); |
| __ nop(); |
| |
| CodeDesc desc; |
| assm.GetCode(&desc); |
| Object* code = HEAP->CreateCode( |
| desc, |
| Code::ComputeFlags(Code::STUB), |
| Handle<Object>(HEAP->undefined_value()))->ToObjectChecked(); |
| CHECK(code->IsCode()); |
| F3 f = FUNCTION_CAST<F3>(Code::cast(code)->entry()); |
| |
| t.cvt_big_in = 0xFFFFFFFF; |
| t.cvt_small_in = 333; |
| |
| Object* dummy = CALL_GENERATED_CODE(f, &t, 0, 0, 0, 0); |
| USE(dummy); |
| |
| CHECK_EQ(t.cvt_big_out, static_cast<double>(t.cvt_big_in)); |
| CHECK_EQ(t.cvt_small_out, static_cast<double>(t.cvt_small_in)); |
| |
| CHECK_EQ(static_cast<int>(t.trunc_big_out), static_cast<int>(t.cvt_big_in)); |
| CHECK_EQ(static_cast<int>(t.trunc_small_out), |
| static_cast<int>(t.cvt_small_in)); |
| } |
| } |
| |
| |
| TEST(MIPS14) { |
| // Test round, floor, ceil, trunc, cvt. |
| InitializeVM(); |
| v8::HandleScope scope; |
| |
| #define ROUND_STRUCT_ELEMENT(x) \ |
| int32_t x##_up_out; \ |
| int32_t x##_down_out; \ |
| int32_t neg_##x##_up_out; \ |
| int32_t neg_##x##_down_out; \ |
| uint32_t x##_err1_out; \ |
| uint32_t x##_err2_out; \ |
| uint32_t x##_err3_out; \ |
| uint32_t x##_err4_out; \ |
| int32_t x##_invalid_result; |
| |
| typedef struct { |
| double round_up_in; |
| double round_down_in; |
| double neg_round_up_in; |
| double neg_round_down_in; |
| double err1_in; |
| double err2_in; |
| double err3_in; |
| double err4_in; |
| |
| ROUND_STRUCT_ELEMENT(round) |
| ROUND_STRUCT_ELEMENT(floor) |
| ROUND_STRUCT_ELEMENT(ceil) |
| ROUND_STRUCT_ELEMENT(trunc) |
| ROUND_STRUCT_ELEMENT(cvt) |
| } T; |
| T t; |
| |
| #undef ROUND_STRUCT_ELEMENT |
| |
| MacroAssembler assm(Isolate::Current(), NULL, 0); |
| |
| if (CpuFeatures::IsSupported(FPU)) { |
| CpuFeatures::Scope scope(FPU); |
| |
| // Save FCSR. |
| __ cfc1(a1, FCSR); |
| // Disable FPU exceptions. |
| __ ctc1(zero_reg, FCSR); |
| #define RUN_ROUND_TEST(x) \ |
| __ ldc1(f0, MemOperand(a0, OFFSET_OF(T, round_up_in))); \ |
| __ x##_w_d(f0, f0); \ |
| __ swc1(f0, MemOperand(a0, OFFSET_OF(T, x##_up_out))); \ |
| \ |
| __ ldc1(f0, MemOperand(a0, OFFSET_OF(T, round_down_in))); \ |
| __ x##_w_d(f0, f0); \ |
| __ swc1(f0, MemOperand(a0, OFFSET_OF(T, x##_down_out))); \ |
| \ |
| __ ldc1(f0, MemOperand(a0, OFFSET_OF(T, neg_round_up_in))); \ |
| __ x##_w_d(f0, f0); \ |
| __ swc1(f0, MemOperand(a0, OFFSET_OF(T, neg_##x##_up_out))); \ |
| \ |
| __ ldc1(f0, MemOperand(a0, OFFSET_OF(T, neg_round_down_in))); \ |
| __ x##_w_d(f0, f0); \ |
| __ swc1(f0, MemOperand(a0, OFFSET_OF(T, neg_##x##_down_out))); \ |
| \ |
| __ ldc1(f0, MemOperand(a0, OFFSET_OF(T, err1_in))); \ |
| __ ctc1(zero_reg, FCSR); \ |
| __ x##_w_d(f0, f0); \ |
| __ cfc1(a2, FCSR); \ |
| __ sw(a2, MemOperand(a0, OFFSET_OF(T, x##_err1_out))); \ |
| \ |
| __ ldc1(f0, MemOperand(a0, OFFSET_OF(T, err2_in))); \ |
| __ ctc1(zero_reg, FCSR); \ |
| __ x##_w_d(f0, f0); \ |
| __ cfc1(a2, FCSR); \ |
| __ sw(a2, MemOperand(a0, OFFSET_OF(T, x##_err2_out))); \ |
| \ |
| __ ldc1(f0, MemOperand(a0, OFFSET_OF(T, err3_in))); \ |
| __ ctc1(zero_reg, FCSR); \ |
| __ x##_w_d(f0, f0); \ |
| __ cfc1(a2, FCSR); \ |
| __ sw(a2, MemOperand(a0, OFFSET_OF(T, x##_err3_out))); \ |
| \ |
| __ ldc1(f0, MemOperand(a0, OFFSET_OF(T, err4_in))); \ |
| __ ctc1(zero_reg, FCSR); \ |
| __ x##_w_d(f0, f0); \ |
| __ cfc1(a2, FCSR); \ |
| __ sw(a2, MemOperand(a0, OFFSET_OF(T, x##_err4_out))); \ |
| __ swc1(f0, MemOperand(a0, OFFSET_OF(T, x##_invalid_result))); |
| |
| RUN_ROUND_TEST(round) |
| RUN_ROUND_TEST(floor) |
| RUN_ROUND_TEST(ceil) |
| RUN_ROUND_TEST(trunc) |
| RUN_ROUND_TEST(cvt) |
| |
| // Restore FCSR. |
| __ ctc1(a1, FCSR); |
| |
| #undef RUN_ROUND_TEST |
| |
| __ jr(ra); |
| __ nop(); |
| |
| CodeDesc desc; |
| assm.GetCode(&desc); |
| Object* code = HEAP->CreateCode( |
| desc, |
| Code::ComputeFlags(Code::STUB), |
| Handle<Object>(HEAP->undefined_value()))->ToObjectChecked(); |
| CHECK(code->IsCode()); |
| F3 f = FUNCTION_CAST<F3>(Code::cast(code)->entry()); |
| |
| t.round_up_in = 123.51; |
| t.round_down_in = 123.49; |
| t.neg_round_up_in = -123.5; |
| t.neg_round_down_in = -123.49; |
| t.err1_in = 123.51; |
| t.err2_in = 1; |
| t.err3_in = static_cast<double>(1) + 0xFFFFFFFF; |
| t.err4_in = NAN; |
| |
| Object* dummy = CALL_GENERATED_CODE(f, &t, 0, 0, 0, 0); |
| USE(dummy); |
| |
| #define GET_FPU_ERR(x) (static_cast<int>((x >> kFCSRFlagShift) & kFCSRFlagMask)) |
| |
| CHECK_EQ(124, t.round_up_out); |
| CHECK_EQ(123, t.round_down_out); |
| CHECK_EQ(-124, t.neg_round_up_out); |
| CHECK_EQ(-123, t.neg_round_down_out); |
| |
| // Inexact. |
| CHECK_EQ(kFCSRInexactFlagBit, GET_FPU_ERR(t.round_err1_out)); |
| // No error. |
| CHECK_EQ(0, GET_FPU_ERR(t.round_err2_out)); |
| // Invalid operation. |
| CHECK_EQ(kFCSRInvalidOpFlagBit, GET_FPU_ERR(t.round_err3_out)); |
| CHECK_EQ(kFCSRInvalidOpFlagBit, GET_FPU_ERR(t.round_err4_out)); |
| CHECK_EQ(kFPUInvalidResult, t.round_invalid_result); |
| |
| CHECK_EQ(123, t.floor_up_out); |
| CHECK_EQ(123, t.floor_down_out); |
| CHECK_EQ(-124, t.neg_floor_up_out); |
| CHECK_EQ(-124, t.neg_floor_down_out); |
| |
| // Inexact. |
| CHECK_EQ(kFCSRInexactFlagBit, GET_FPU_ERR(t.floor_err1_out)); |
| // No error. |
| CHECK_EQ(0, GET_FPU_ERR(t.floor_err2_out)); |
| // Invalid operation. |
| CHECK_EQ(kFCSRInvalidOpFlagBit, GET_FPU_ERR(t.floor_err3_out)); |
| CHECK_EQ(kFCSRInvalidOpFlagBit, GET_FPU_ERR(t.floor_err4_out)); |
| CHECK_EQ(kFPUInvalidResult, t.floor_invalid_result); |
| |
| CHECK_EQ(124, t.ceil_up_out); |
| CHECK_EQ(124, t.ceil_down_out); |
| CHECK_EQ(-123, t.neg_ceil_up_out); |
| CHECK_EQ(-123, t.neg_ceil_down_out); |
| |
| // Inexact. |
| CHECK_EQ(kFCSRInexactFlagBit, GET_FPU_ERR(t.ceil_err1_out)); |
| // No error. |
| CHECK_EQ(0, GET_FPU_ERR(t.ceil_err2_out)); |
| // Invalid operation. |
| CHECK_EQ(kFCSRInvalidOpFlagBit, GET_FPU_ERR(t.ceil_err3_out)); |
| CHECK_EQ(kFCSRInvalidOpFlagBit, GET_FPU_ERR(t.ceil_err4_out)); |
| CHECK_EQ(kFPUInvalidResult, t.ceil_invalid_result); |
| |
| // In rounding mode 0 cvt should behave like round. |
| CHECK_EQ(t.round_up_out, t.cvt_up_out); |
| CHECK_EQ(t.round_down_out, t.cvt_down_out); |
| CHECK_EQ(t.neg_round_up_out, t.neg_cvt_up_out); |
| CHECK_EQ(t.neg_round_down_out, t.neg_cvt_down_out); |
| |
| // Inexact. |
| CHECK_EQ(kFCSRInexactFlagBit, GET_FPU_ERR(t.cvt_err1_out)); |
| // No error. |
| CHECK_EQ(0, GET_FPU_ERR(t.cvt_err2_out)); |
| // Invalid operation. |
| CHECK_EQ(kFCSRInvalidOpFlagBit, GET_FPU_ERR(t.cvt_err3_out)); |
| CHECK_EQ(kFCSRInvalidOpFlagBit, GET_FPU_ERR(t.cvt_err4_out)); |
| CHECK_EQ(kFPUInvalidResult, t.cvt_invalid_result); |
| } |
| } |
| |
| |
| #undef __ |