8 files changed, 518 insertions, 90 deletions

diff --git a/inc/id.h b/inc/id.h
index 9911440..3ff5063 100644
--- a/inc/id.h
+++ b/inc/id.h
@@ -21,22 +21,6 @@ class ID : public Stage
 	 */
 
 	/**
-	 * Parse an instruction into a type, opcode, and fields. If the type is
-	 * invalid, only the type field will be set.
-	 *
-	 * This method is marked public so it may be tested, and is not used outside
-	 * of this class during normal execution.
-	 *
-	 * @param the resulting first field, which varies per type. To call this
-	 * function properly, this field must contain the full instruction bytes on
-	 * function entry.
-	 * @param the resulting second field, which varies per type.
-	 * @param the resulting third field, which varies per type.
-	 * @param the resulting mnemonic.
-	 */
-	void get_instr_fields(
-		signed int &s1, signed int &s2, signed int &s3, Mnemonic &m);
-	/**
 	 * Facilitates register checkout and data hazard management.
 	 * It does this by checking that the register passed in is not currently
 	 * checked out. If true, then replaces r with the value of the register and
@@ -66,6 +50,22 @@ class ID : public Stage
 	 * @param the resulting second field.
 	 * @param the resulting third field.
 	 */
+	/**
+	 * Parse an instruction into a type, opcode, and fields. If the type is
+	 * invalid, only the type field will be set.
+	 *
+	 * This method is marked public so it may be tested, and is not used outside
+	 * of this class during normal execution.
+	 *
+	 * @param the resulting first field, which varies per type. To call this
+	 * function properly, this field must contain the full instruction bytes on
+	 * function entry.
+	 * @param the resulting second field, which varies per type.
+	 * @param the resulting third field, which varies per type.
+	 * @param the resulting mnemonic.
+	 */
+	void get_instr_fields(
+		signed int &s1, signed int &s2, signed int &s3, Mnemonic &m);
 	void decode_R_type(signed int &s1, signed int &s2, signed int &s3);
 	void decode_I_type(signed int &s1, signed int &s2, signed int &s3);
 	void decode_J_type(signed int &s1, signed int &s2);
diff --git a/inc/stage.h b/inc/stage.h
index 56a3589..d1b6ee1 100644
--- a/inc/stage.h
+++ b/inc/stage.h
@@ -40,6 +40,16 @@ class Stage
 	 */
 	virtual InstrDTO *advance(Response p);
 
+	/* The following methods are made public so that they may be tested, and are
+	 * not to be called from outside classes during standard execution.
+	 */
+
+	/**
+	 * Gets the bit in the condition code register correspondng to `c`.
+	 * @param the condition code to retrieve,
+	 */
+	bool get_condition(CC c);
+
   protected:
 	/**
 	 * The function expected to do the majority of the work.
@@ -54,11 +64,6 @@ class Stage
 	 */
 	void set_condition(CC c, bool v);
 	/**
-	 * Gets the bit in the condition code register correspondng to `c`.
-	 * @param the condition code to retrieve,
-	 */
-	bool get_condition(CC c);
-	/**
 	 * Helper for `check_out`.
 	 * Returns true if r are not checked out, false otherwise.
 	 * @param a list of register numbers.
diff --git a/src/sim/ex.cc b/src/sim/ex.cc
index 50882d2..d177bc9 100644
--- a/src/sim/ex.cc
+++ b/src/sim/ex.cc
@@ -199,4 +199,20 @@ EX::EX(Stage *stage) : Stage(stage)
 	};
 }
 
-void EX::advance_helper() {}
+void EX::advance_helper() {
+	signed int s1, s2;
+	Mnemonic m;
+	
+	// it may be good to ensure we are not doing
+	// work that has already been done
+	if (this->curr_instr) {
+		m = this->curr_instr->get_mnemonic();
+		s1 = this->curr_instr->get_s1();
+		s2 = this->curr_instr->get_s2();
+
+		this->instr_map[m](s1, s2);
+
+		this->curr_instr->set_s1(s1);
+		this->status = OK;
+	}
+}
diff --git a/src/sim/id.cc b/src/sim/id.cc
index 36addbb..edf74e2 100644
--- a/src/sim/id.cc
+++ b/src/sim/id.cc
@@ -8,25 +8,6 @@
 
 ID::ID(Stage *stage) : Stage(stage) { this->id = DCDE; }
 
-void ID::get_instr_fields(
-	signed int &s1, signed int &s2, signed int &s3, Mnemonic &m)
-{
-	unsigned int type;
-	this->split_instr(s1, type, m);
-
-	switch (type) {
-	case 0b00:
-		this->decode_R_type(s1, s2, s3);
-		break;
-	case 0b01:
-		this->decode_I_type(s1, s2, s3);
-		break;
-	case 0b10:
-		this->decode_J_type(s1, s2);
-		break;
-	}
-}
-
 void ID::split_instr(signed int &raw, unsigned int &type, Mnemonic &m)
 {
 	unsigned int opcode, opcode_size;
@@ -80,6 +61,27 @@ void ID::advance_helper()
 	}
 }
 
+void ID::get_instr_fields(
+	signed int &s1, signed int &s2, signed int &s3, Mnemonic &m)
+{
+	unsigned int type;
+	this->split_instr(s1, type, m);
+
+	switch (type) {
+	case 0b00:
+		this->decode_R_type(s1, s2, s3);
+		break;
+	case 0b01:
+		this->decode_I_type(s1, s2, s3);
+		break;
+	case 0b10:
+		this->decode_J_type(s1, s2);
+		break;
+	case 0b11:
+		this->status = OK;
+	}
+}
+
 void ID::decode_R_type(signed int &s1, signed int &s2, signed int &s3)
 {
 	unsigned int s0b, s1b, s2b;
diff --git a/src/sim/stage.cc b/src/sim/stage.cc
index 929a4b9..74a2176 100644
--- a/src/sim/stage.cc
+++ b/src/sim/stage.cc
@@ -45,7 +45,7 @@ InstrDTO *Stage::advance(Response p)
 void Stage::set_condition(CC c, bool v)
 {
 	if (v)
-		this->gprs[3] = this->gprs[3] & 1 << c;
+		this->gprs[3] = this->gprs[3] | 1 << c;
 	else
 		this->gprs[3] = this->gprs[3] & ~(1 << c);
 }
diff --git a/tests/ex.cc b/tests/ex.cc
new file mode 100644
index 0000000..d5920d2
--- /dev/null
+++ b/tests/ex.cc
@@ -0,0 +1,425 @@
+#include "ex.h"
+#include "cache.h"
+#include "controller.h"
+#include "dram.h"
+#include "dum.h"
+#include "instr.h"
+#include "instrDTO.h"
+#include <catch2/catch_test_macros.hpp>
+
+class EXFixture
+{
+  public:
+	EXFixture()
+	{
+		this->dr = new Dram(3);
+		this->c = new Cache(this->dr, 1);
+		this->dum = new DUM(nullptr);
+		this->e = new EX(dum);
+		this->ct = new Controller(this->e, this->c, true);
+	};
+	~EXFixture()
+	{
+		delete this->ct;
+		delete this->c;
+	};
+	InstrDTO *execute_instr(signed int s1, signed int s2, Mnemonic m)
+	{
+		InstrDTO *i = new InstrDTO();
+		i->set_s1(s1);
+		i->set_s2(s2);
+		i->set_mnemonic(m);
+		this->dum->set_curr_instr(i);
+
+		i = this->ct->advance(OK);
+		REQUIRE(i == nullptr);
+		i = this->ct->advance(OK);
+		REQUIRE(i != nullptr);
+
+		return i;
+	}
+	Dram *dr;
+	Cache *c;
+	EX *e;
+	DUM *dum;
+	Controller *ct;
+};
+
+std::unordered_map<Mnemonic, signed int> results = {
+	{ADD, 42},
+	{SUB, 83958},
+};
+
+TEST_CASE_METHOD(EXFixture, "ADD within bounds", "[ex]")
+{
+	signed int s1 = 0, s2 = 0;
+	Mnemonic m;
+	InstrDTO *i;
+
+	m = ADD;
+	s1 = 42000, s2 = -41958;
+	i = execute_instr(s1, s2, m);
+
+	CHECK(i->get_s1() == 42);
+	CHECK(!ct->get_condition(OF));
+	CHECK(!ct->get_condition(UF));
+
+	delete i;
+}
+
+// TEST_CASE_METHOD(EXFixture, "ADD overflow", "[ex]")
+// {
+// }
+
+// TEST_CASE_METHOD(EXFixture, "ADD underflow", "[ex]")
+// {
+// }
+
+TEST_CASE_METHOD(EXFixture, "SUB within bounds", "[ex]")
+{
+	signed int s1 = 0, s2 = 0;
+	Mnemonic m;
+	InstrDTO *i;
+
+	m = SUB;
+	s1 = 200, s2 = 131;
+	i = execute_instr(s1, s2, m);
+
+	CHECK(i->get_s1() == 69);
+	CHECK(!ct->get_condition(OF));
+	CHECK(!ct->get_condition(UF));
+
+	delete i;
+}
+
+// TEST_CASE_METHOD(EXFixture, "SUB overflow", "[ex]")
+// {
+// }
+
+// TEST_CASE_METHOD(EXFixture, "SUB underflow", "[ex]")
+// {
+// }
+
+TEST_CASE_METHOD(EXFixture, "MUL within bounds", "[ex]")
+{
+	signed int s1 = 0, s2 = 0;
+	Mnemonic m;
+	InstrDTO *i;
+
+	m = MUL;
+	s1 = 200, s2 = 200;
+	i = execute_instr(s1, s2, m);
+
+	CHECK(i->get_s1() == 40000);
+	CHECK(!ct->get_condition(OF));
+	CHECK(!ct->get_condition(UF));
+
+	delete i;
+}
+
+// TEST_CASE_METHOD(EXFixture, "MUL overflow", "[ex]")
+// {
+// }
+
+// TEST_CASE_METHOD(EXFixture, "MUL underflow", "[ex]")
+// {
+// }
+
+TEST_CASE_METHOD(EXFixture, "QUOT within bounds", "[ex]")
+{
+	signed int s1 = 0, s2 = 0;
+	Mnemonic m;
+	InstrDTO *i;
+
+	m = QUOT;
+	s1 = 2043, s2 = 40;
+	i = execute_instr(s1, s2, m);
+
+	CHECK(i->get_s1() == 51);
+	CHECK(!ct->get_condition(OF));
+	CHECK(!ct->get_condition(UF));
+
+	delete i;
+}
+
+// TEST_CASE_METHOD(EXFixture, "QUOT overflow", "[ex]")
+// {
+// }
+
+// TEST_CASE_METHOD(EXFixture, "QUOT underflow", "[ex]")
+// {
+// }
+
+// TEST_CASE_METHOD(EXFixture, "QUOT halt", "[ex]")
+// {
+// }
+
+TEST_CASE_METHOD(EXFixture, "REM within bounds", "[ex]")
+{
+	signed int s1 = 0, s2 = 0;
+	Mnemonic m;
+	InstrDTO *i;
+
+	m = REM;
+	s1 = 2043, s2 = 40;
+	i = execute_instr(s1, s2, m);
+
+	CHECK(i->get_s1() == 3);
+	CHECK(!ct->get_condition(OF));
+	CHECK(!ct->get_condition(UF));
+
+	delete i;
+}
+
+// TEST_CASE_METHOD(EXFixture, "REM overflow", "[ex]")
+// {
+// }
+
+// TEST_CASE_METHOD(EXFixture, "REM underflow", "[ex]")
+// {
+// }
+
+// TEST_CASE_METHOD(EXFixture, "REM halt", "[ex]")
+// {
+// }
+
+TEST_CASE_METHOD(EXFixture, "SFTR within bounds", "[ex]")
+{
+	signed int s1 = 0, s2 = 0;
+	Mnemonic m;
+	InstrDTO *i;
+
+	m = SFTR;
+	s1 = 1300, s2 = 6;
+	i = execute_instr(s1, s2, m);
+
+	CHECK(i->get_s1() == 20);
+	CHECK(!ct->get_condition(OF));
+	CHECK(!ct->get_condition(UF));
+
+	delete i;
+}
+
+// TEST_CASE_METHOD(EXFixture, "SFTR overflow", "[ex]")
+// {
+// }
+
+// TEST_CASE_METHOD(EXFixture, "SFTR underflow", "[ex]")
+// {
+// }
+
+TEST_CASE_METHOD(EXFixture, "SFTL within bounds", "[ex]")
+{
+	signed int s1 = 0, s2 = 0;
+	Mnemonic m;
+	InstrDTO *i;
+
+	m = SFTL;
+	s1 = 13, s2 = 6;
+	i = execute_instr(s1, s2, m);
+
+	CHECK(i->get_s1() == 832);
+	CHECK(!ct->get_condition(OF));
+	CHECK(!ct->get_condition(UF));
+
+	delete i;
+}
+
+// TEST_CASE_METHOD(EXFixture, "SFTL overflow", "[ex]")
+// {
+// }
+
+// TEST_CASE_METHOD(EXFixture, "SFTL underflow", "[ex]")
+// {
+// }
+
+TEST_CASE_METHOD(EXFixture, "AND", "[ex]")
+{
+	signed int s1 = 0, s2 = 0;
+	Mnemonic m;
+	InstrDTO *i;
+
+	m = AND;
+	s1 = 1234, s2 = 5678;
+	i = execute_instr(s1, s2, m);
+
+	CHECK(i->get_s1() == 1026);
+	CHECK(!ct->get_condition(OF));
+	CHECK(!ct->get_condition(UF));
+
+	delete i;
+}
+
+TEST_CASE_METHOD(EXFixture, "OR", "[ex]")
+{
+	signed int s1 = 0, s2 = 0;
+	Mnemonic m;
+	InstrDTO *i;
+
+	m = OR;
+	s1 = 1234, s2 = 5678;
+	i = execute_instr(s1, s2, m);
+
+	CHECK(i->get_s1() == 5886);
+	CHECK(!ct->get_condition(OF));
+	CHECK(!ct->get_condition(UF));
+
+	delete i;
+}
+
+TEST_CASE_METHOD(EXFixture, "NOT", "[ex]")
+{
+	signed int s1 = 0, s2 = 0;
+	Mnemonic m;
+	InstrDTO *i;
+
+	m = NOT;
+	s1 = 1234, s2 = -1;
+	i = execute_instr(s1, s2, m);
+
+	CHECK(i->get_s1() == -1235);
+	CHECK(!ct->get_condition(OF));
+	CHECK(!ct->get_condition(UF));
+
+	delete i;
+}
+
+TEST_CASE_METHOD(EXFixture, "XOR", "[ex]")
+{
+	signed int s1 = 0, s2 = 0;
+	Mnemonic m;
+	InstrDTO *i;
+
+	m = XOR;
+	s1 = 1234, s2 = 5678;
+	i = execute_instr(s1, s2, m);
+
+	CHECK(i->get_s1() == 4860);
+	CHECK(!ct->get_condition(OF));
+	CHECK(!ct->get_condition(UF));
+
+	delete i;
+}
+
+// TEST_CASE_METHOD(EXFixture, "ADDV within bounds", "[ex]")
+// {
+// }
+
+// TEST_CASE_METHOD(EXFixture, "ADDV overflow", "[ex]")
+// {
+// }
+
+// TEST_CASE_METHOD(EXFixture, "ADDV underflow", "[ex]")
+// {
+// }
+
+// TEST_CASE_METHOD(EXFixture, "SUBV within bounds", "[ex]")
+// {
+// }
+
+// TEST_CASE_METHOD(EXFixture, "SUBV overflow", "[ex]")
+// {
+// }
+
+// TEST_CASE_METHOD(EXFixture, "SUBV underflow", "[ex]")
+// {
+// }
+
+// TEST_CASE_METHOD(EXFixture, "MULV within bounds", "[ex]")
+// {
+// }
+
+// TEST_CASE_METHOD(EXFixture, "MULV overflow", "[ex]")
+// {
+// }
+
+// TEST_CASE_METHOD(EXFixture, "MULV underflow", "[ex]")
+// {
+// }
+
+// TEST_CASE_METHOD(EXFixture, "DIVV within bounds", "[ex]")
+// {
+// }
+
+// TEST_CASE_METHOD(EXFixture, "DIVV overflow", "[ex]")
+// {
+// }
+
+// TEST_CASE_METHOD(EXFixture, "DIVV underflow", "[ex]")
+// {
+// }
+
+TEST_CASE_METHOD(EXFixture, "CMP less", "[ex]")
+{
+	signed int s1 = 0, s2 = 0;
+	Mnemonic m;
+	InstrDTO *i;
+
+	m = CMP;
+	s1 = -1, s2 = 0;
+	i = execute_instr(s1, s2, m);
+
+	// should not be changed
+	CHECK(i->get_s1() == -1);
+
+	CHECK(!ct->get_condition(EQ));
+	CHECK(!ct->get_condition(GT));
+	CHECK(!ct->get_condition(OF));
+	CHECK(!ct->get_condition(UF));
+
+	delete i;
+}
+
+TEST_CASE_METHOD(EXFixture, "CMP equal", "[ex]")
+{
+	signed int s1 = 0, s2 = 0;
+	Mnemonic m;
+	InstrDTO *i;
+
+	m = CMP;
+	s1 = 20, s2 = 20;
+	i = execute_instr(s1, s2, m);
+
+	// should not be changed
+	CHECK(i->get_s1() == 20);
+
+	CHECK(ct->get_condition(EQ));
+	CHECK(!ct->get_condition(GT));
+	CHECK(!ct->get_condition(OF));
+	CHECK(!ct->get_condition(UF));
+
+	delete i;
+}
+
+TEST_CASE_METHOD(EXFixture, "CMP greater", "[ex]")
+{
+	signed int s1 = 0, s2 = 0;
+	Mnemonic m;
+	InstrDTO *i;
+
+	m = CMP;
+	s1 = 21, s2 = 20;
+	i = execute_instr(s1, s2, m);
+
+	// should not be changed
+	CHECK(i->get_s1() == 21);
+
+	CHECK(!ct->get_condition(EQ));
+	CHECK(ct->get_condition(GT));
+	CHECK(!ct->get_condition(OF));
+	CHECK(!ct->get_condition(UF));
+
+	delete i;
+}
+
+// TEST_CASE_METHOD(EXFixture, "CEQ less", "[ex]")
+// {
+// }
+
+// TEST_CASE_METHOD(EXFixture, "CEQ equal", "[ex]")
+// {
+// }
+
+// TEST_CASE_METHOD(EXFixture, "CEQ greater", "[ex]")
+// {
+// }
diff --git a/tests/id.cc b/tests/id.cc
index be50ed5..5270972 100644
--- a/tests/id.cc
+++ b/tests/id.cc
@@ -23,11 +23,18 @@ class IDFixture
 		delete this->ct;
 		delete this->c;
 	};
-	void prime_bits(signed int raw)
+	InstrDTO *decode_bits(signed int raw)
 	{
 		InstrDTO *i = new InstrDTO();
 		i->set_instr_bits(raw);
 		this->dum->set_curr_instr(i);
+
+		i = this->ct->advance(OK);
+		REQUIRE(i == nullptr);
+		i = this->ct->advance(OK);
+		REQUIRE(i != nullptr);
+
+		return i;
 	}
 	signed int encode_R_type(
 		signed int s3,
@@ -79,12 +86,15 @@ class IDFixture
 
 TEST_CASE_METHOD(IDFixture, "Parse invalid type", "[id]")
 {
-	signed int s1 = 0, s2 = 0, s3 = 0;
-	Mnemonic m;
+	signed int t;
+	InstrDTO *i;
 
-	s1 = 0xFFFFFFFF;
-	this->d->get_instr_fields(s1, s2, s3, m);
-	CHECK(m == NOP);
+	t = this->encode_R_type(0b0, 0b1, 0b10, 0b11, 0b11);
+	i = this->decode_bits(t);
+
+	CHECK(i->get_mnemonic() == NOP);
+
+	delete i;
 }
 
 TEST_CASE_METHOD(IDFixture, "Parse arbitrary r-type # one", "[id]")
@@ -93,12 +103,7 @@ TEST_CASE_METHOD(IDFixture, "Parse arbitrary r-type # one", "[id]")
 	InstrDTO *i;
 
 	t = this->encode_R_type(0b0, 0b1, 0b10, 0b11, 0b0);
-	this->prime_bits(t);
-
-	i = this->ct->advance(OK);
-	REQUIRE(i == nullptr);
-	i = this->ct->advance(OK);
-	REQUIRE(i != nullptr);
+	i = this->decode_bits(t);
 
 	CHECK(i->get_s1() == 0x00000000); // registers are empty
 	CHECK(i->get_s2() == 0x00000000);
@@ -114,12 +119,7 @@ TEST_CASE_METHOD(IDFixture, "Parse arbitrary r-type # two", "[id]")
 	InstrDTO *i;
 
 	t = this->encode_R_type(0b10000, 0b01000, 0b00100, 0b10, 0b0);
-	this->prime_bits(t);
-
-	i = this->ct->advance(OK);
-	REQUIRE(i == nullptr);
-	i = this->ct->advance(OK);
-	REQUIRE(i != nullptr);
+	i = this->decode_bits(t);
 
 	CHECK(i->get_s1() == 0x00000000); // registers are empty
 	CHECK(i->get_s2() == 0x00000000);
@@ -135,12 +135,7 @@ TEST_CASE_METHOD(IDFixture, "Parse arbitrary i-type # one", "[id]")
 	InstrDTO *i;
 
 	t = this->encode_I_type(0xF, 0b1, 0b10, 0b0111, 0b1);
-	this->prime_bits(t);
-
-	i = this->ct->advance(OK);
-	REQUIRE(i == nullptr);
-	i = this->ct->advance(OK);
-	REQUIRE(i != nullptr);
+	i = this->decode_bits(t);
 
 	CHECK(i->get_s1() == 0x00000000); // registers are empty
 	CHECK(i->get_s2() == 0x00000000);
@@ -156,12 +151,7 @@ TEST_CASE_METHOD(IDFixture, "Parse arbitrary i-type # two", "[id]")
 	InstrDTO *i;
 
 	t = this->encode_I_type(0xCC, 0b010, 0b101, 0b1011, 0b1);
-	this->prime_bits(t);
-
-	i = this->ct->advance(OK);
-	REQUIRE(i == nullptr);
-	i = this->ct->advance(OK);
-	REQUIRE(i != nullptr);
+	i = this->decode_bits(t);
 	
 	CHECK(i->get_s1() == 0x00000000); // registers are empty
 	CHECK(i->get_s2() == 0x00000000);
@@ -177,12 +167,7 @@ TEST_CASE_METHOD(IDFixture, "Parse arbitrary j-type # one", "[id]")
 	InstrDTO *i;
 
 	t = this->encode_J_type(0x3456, 0b10101, 0b0111, 0b10);
-	this->prime_bits(t);
-
-	i = this->ct->advance(OK);
-	REQUIRE(i == nullptr);
-	i = this->ct->advance(OK);
-	REQUIRE(i != nullptr);
+	i = this->decode_bits(t);
 
 	CHECK(i->get_s1() == 0x00000000); // registers are empty
 	CHECK(i->get_s2() == 0x3456);
@@ -197,12 +182,7 @@ TEST_CASE_METHOD(IDFixture, "Parse arbitrary j-type # two", "[id]")
 	InstrDTO *i;
 
 	t = this->encode_J_type(0xBBCCF, 0b10101, 0b0011, 0b10);
-	this->prime_bits(t);
-
-	i = this->ct->advance(OK);
-	REQUIRE(i == nullptr);
-	i = this->ct->advance(OK);
-	REQUIRE(i != nullptr);
+	i = this->decode_bits(t);
 
 	CHECK(i->get_s1() == 0x00000000); // registers are empty
 	CHECK(i->get_s2() == 0xBBCCF);
diff --git a/tests/if.cc b/tests/if.cc
index 1f02cb0..4ebc47d 100644
--- a/tests/if.cc
+++ b/tests/if.cc
@@ -5,10 +5,10 @@
 #include "instrDTO.h"
 #include <catch2/catch_test_macros.hpp>
 
-class IFPipeFixture
+class IFFixture
 {
   public:
-	IFPipeFixture()
+	IFFixture()
 	{
 		Dram *d;
 
@@ -21,7 +21,7 @@ class IFPipeFixture
 		this->f = new IF(nullptr);
 		this->ct = new Controller(this->f, this->c, true);
 	}
-	~IFPipeFixture()
+	~IFFixture()
 	{
 		delete this->ct;
 		delete this->c;
@@ -70,7 +70,7 @@ class IFPipeFixture
 	Controller *ct;
 };
 
-TEST_CASE_METHOD(IFPipeFixture, "fetch returns single instuction", "[if_pipe]")
+TEST_CASE_METHOD(IFFixture, "fetch returns single instuction", "[if_pipe]")
 {
 	InstrDTO *i;
 	int expected_cycles;
@@ -83,7 +83,7 @@ TEST_CASE_METHOD(IFPipeFixture, "fetch returns single instuction", "[if_pipe]")
 	delete i;
 }
 
-TEST_CASE_METHOD(IFPipeFixture, "fetch returns two instuctions", "[if_pipe]")
+TEST_CASE_METHOD(IFFixture, "fetch returns two instuctions", "[if_pipe]")
 {
 	InstrDTO *i;
 	int expected_cycles;
@@ -103,7 +103,7 @@ TEST_CASE_METHOD(IFPipeFixture, "fetch returns two instuctions", "[if_pipe]")
 	delete i;
 }
 
-TEST_CASE_METHOD(IFPipeFixture, "fetch waits with old instruction",
+TEST_CASE_METHOD(IFFixture, "fetch waits with old instruction",
 "[if_pipe]")
 {
 	InstrDTO *i;