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author Miodrag Milanovic <mmicko@gmail.com>2016-11-11 20:43:19 +0100
committer Miodrag Milanovic <mmicko@gmail.com>2016-11-11 20:43:19 +0100
commit1efccdd38d4bac6ec44e13f0a6cdf877e3a1c7cb (patch)
treee1623d63666f8d559c392d316ca2192ab4116e5a /src
parent2e49823a06c2955fdd2ca1b1903327730c2b32ef (diff)
using of IS_ENABLED in files used in tiny build (nw)
Diffstat (limited to 'src')
-rw-r--r--src/devices/cpu/cop400/cop400.cpp4
-rw-r--r--src/devices/cpu/m6809/m6809.cpp2
-rw-r--r--src/devices/cpu/tms9900/ti990_10.cpp4
-rw-r--r--src/devices/cpu/tms9900/tms9900.cpp92
-rw-r--r--src/devices/cpu/tms9900/tms9980a.cpp22
-rw-r--r--src/devices/cpu/tms9900/tms9995.cpp190
-rw-r--r--src/devices/imagedev/flopdrv.cpp4
-rw-r--r--src/devices/imagedev/floppy.cpp4
-rw-r--r--src/devices/imagedev/mfmhd.cpp58
-rw-r--r--src/devices/machine/laserdsc.cpp4
-rw-r--r--src/devices/sound/cem3394.cpp2
-rw-r--r--src/devices/sound/votrax.cpp22
-rw-r--r--src/devices/video/poly.h4
-rw-r--r--src/frontend/mame/ui/filecreate.cpp6
-rw-r--r--src/lib/formats/cassimg.cpp2
-rw-r--r--src/lib/formats/fdi_dsk.cpp4
-rw-r--r--src/lib/util/corefile.cpp2
-rw-r--r--src/lib/util/jedparse.cpp6
-rw-r--r--src/lib/util/plaparse.cpp32
-rw-r--r--src/lib/util/vbiparse.cpp6
-rw-r--r--src/mame/audio/exidy.cpp10
-rw-r--r--src/mame/audio/exidy440.cpp4
-rw-r--r--src/mame/video/victory.cpp54
-rw-r--r--src/osd/windows/window.cpp2
24 files changed, 270 insertions, 270 deletions
diff --git a/src/devices/cpu/cop400/cop400.cpp b/src/devices/cpu/cop400/cop400.cpp
index 58a5c672a35..01c9422ec14 100644
--- a/src/devices/cpu/cop400/cop400.cpp
+++ b/src/devices/cpu/cop400/cop400.cpp
@@ -1192,14 +1192,14 @@ offs_t cop400_cpu_device::disasm_disassemble(char *buffer, offs_t pc, const uint
READ8_MEMBER( cop400_cpu_device::microbus_rd )
{
- if (LOG_MICROBUS) logerror("%s %s MICROBUS RD %02x\n", machine().time().as_string(), machine().describe_context(), Q);
+ if (IS_ENABLED(LOG_MICROBUS)) logerror("%s %s MICROBUS RD %02x\n", machine().time().as_string(), machine().describe_context(), Q);
return Q;
}
WRITE8_MEMBER( cop400_cpu_device::microbus_wr )
{
- if (LOG_MICROBUS) logerror("%s %s MICROBUS WR %02x\n", machine().time().as_string(), machine().describe_context(), data);
+ if (IS_ENABLED(LOG_MICROBUS)) logerror("%s %s MICROBUS WR %02x\n", machine().time().as_string(), machine().describe_context(), data);
WRITE_G(G & 0xe);
diff --git a/src/devices/cpu/m6809/m6809.cpp b/src/devices/cpu/m6809/m6809.cpp
index db0cbee9a3c..0c70a3afb66 100644
--- a/src/devices/cpu/m6809/m6809.cpp
+++ b/src/devices/cpu/m6809/m6809.cpp
@@ -446,7 +446,7 @@ uint32_t m6809_base_device::execute_input_lines() const
void m6809_base_device::execute_set_input(int inputnum, int state)
{
- if (LOG_INTERRUPTS)
+ if (IS_ENABLED(LOG_INTERRUPTS))
logerror("%s: inputnum=%s state=%d totalcycles=%d\n", machine().describe_context(), inputnum_string(inputnum), state, (int) attotime_to_clocks(machine().time()));
switch(inputnum)
diff --git a/src/devices/cpu/tms9900/ti990_10.cpp b/src/devices/cpu/tms9900/ti990_10.cpp
index 6465ecf8475..071b5dc7dd2 100644
--- a/src/devices/cpu/tms9900/ti990_10.cpp
+++ b/src/devices/cpu/tms9900/ti990_10.cpp
@@ -69,7 +69,7 @@ void ti990_10_device::device_start()
void ti990_10_device::device_stop()
{
- if (TRACE_SETUP) logerror("ti990_10: Deleting lookup tables\n");
+ if (IS_ENABLED(TRACE_SETUP)) logerror("ti990_10: Deleting lookup tables\n");
}
/*
@@ -79,7 +79,7 @@ void ti990_10_device::device_stop()
*/
void ti990_10_device::device_reset()
{
- if (TRACE_EMU) logerror("ti990_10: Device reset by emulator\n");
+ if (IS_ENABLED(TRACE_EMU)) logerror("ti990_10: Device reset by emulator\n");
}
const address_space_config *ti990_10_device::memory_space_config(address_spacenum spacenum) const
diff --git a/src/devices/cpu/tms9900/tms9900.cpp b/src/devices/cpu/tms9900/tms9900.cpp
index 9bac8fdf937..5238fb9d33a 100644
--- a/src/devices/cpu/tms9900/tms9900.cpp
+++ b/src/devices/cpu/tms9900/tms9900.cpp
@@ -314,7 +314,7 @@ void tms99xx_device::resolve_lines()
*/
void tms99xx_device::device_reset()
{
- if (TRACE_EMU) logerror("Device reset by emulator\n");
+ if (IS_ENABLED(TRACE_EMU)) logerror("Device reset by emulator\n");
m_reset = true;
m_check_ready = false;
m_wait_state = false;
@@ -1106,7 +1106,7 @@ void tms99xx_device::build_command_lookup_table()
{
inst = &s_command[i];
table = m_command_lookup_table.get();
- if (TRACE_SETUP) logerror("=== opcode=%04x, len=%d\n", inst->opcode, format_mask_len[inst->format]);
+ if (IS_ENABLED(TRACE_SETUP)) logerror("=== opcode=%04x, len=%d\n", inst->opcode, format_mask_len[inst->format]);
bitcount = 4;
opcode = inst->opcode;
cmdindex = (opcode>>12) & 0x000f;
@@ -1116,7 +1116,7 @@ void tms99xx_device::build_command_lookup_table()
// Descend
if (table[cmdindex].next_digit == nullptr)
{
- if (TRACE_SETUP) logerror("create new table at bitcount=%d for index=%d\n", bitcount, cmdindex);
+ if (IS_ENABLED(TRACE_SETUP)) logerror("create new table at bitcount=%d for index=%d\n", bitcount, cmdindex);
table[cmdindex].next_digit = std::make_unique<lookup_entry[]>(16);
for (int j=0; j < 16; j++)
{
@@ -1126,7 +1126,7 @@ void tms99xx_device::build_command_lookup_table()
}
else
{
- if (TRACE_SETUP) logerror("found a table at bitcount=%d\n", bitcount);
+ if (IS_ENABLED(TRACE_SETUP)) logerror("found a table at bitcount=%d\n", bitcount);
}
table = table[cmdindex].next_digit.get();
@@ -1134,17 +1134,17 @@ void tms99xx_device::build_command_lookup_table()
bitcount = bitcount+4;
opcode <<= 4;
cmdindex = (opcode>>12) & 0x000f;
- if (TRACE_SETUP) logerror("next index=%x\n", cmdindex);
+ if (IS_ENABLED(TRACE_SETUP)) logerror("next index=%x\n", cmdindex);
}
- if (TRACE_SETUP) logerror("bitcount=%d\n", bitcount);
+ if (IS_ENABLED(TRACE_SETUP)) logerror("bitcount=%d\n", bitcount);
// We are at the target level
// Need to fill in the same entry for all values in the bitcount
// (if a command needs 10 bits we have to copy it four
// times for all combinations with 12 bits)
for (int j=0; j < (1<<(bitcount-format_mask_len[inst->format])); j++)
{
- if (TRACE_SETUP) logerror("opcode=%04x at position %d\n", inst->opcode, cmdindex+j);
+ if (IS_ENABLED(TRACE_SETUP)) logerror("opcode=%04x at position %d\n", inst->opcode, cmdindex+j);
table[cmdindex+j].index = i;
}
i++;
@@ -1193,7 +1193,7 @@ void tms99xx_device::execute_run()
{
if (m_reset) service_interrupt();
- if (TRACE_EMU) logerror("calling execute_run for %d cycles\n", m_icount);
+ if (IS_ENABLED(TRACE_EMU)) logerror("calling execute_run for %d cycles\n", m_icount);
do
{
// Only when last instruction has completed
@@ -1219,7 +1219,7 @@ void tms99xx_device::execute_run()
if (m_program_index == NOPRG && m_idle_state)
{
- if (TRACE_WAIT) logerror("idle state\n");
+ if (IS_ENABLED(TRACE_WAIT)) logerror("idle state\n");
pulse_clock(1);
if (!m_external_operation.isnull())
{
@@ -1243,7 +1243,7 @@ void tms99xx_device::execute_run()
program[MPC] != MEMORY_READ && program[MPC] != MEMORY_WRITE &&
program[MPC] != REG_READ && program[MPC] != REG_WRITE)))
{
- if (TRACE_WAIT) logerror("hold\n");
+ if (IS_ENABLED(TRACE_WAIT)) logerror("hold\n");
if (!m_hold_acknowledged) acknowledge_hold();
pulse_clock(1);
}
@@ -1254,7 +1254,7 @@ void tms99xx_device::execute_run()
{
// We are in a wait state
set_wait_state(true);
- if (TRACE_WAIT) logerror("wait\n");
+ if (IS_ENABLED(TRACE_WAIT)) logerror("wait\n");
// The clock output should be used to change the state of an outer
// device which operates the READY line
pulse_clock(1);
@@ -1266,7 +1266,7 @@ void tms99xx_device::execute_run()
// If we don't have a microprogram, acquire the next instruction
uint8_t op = (m_program_index==NOPRG)? IAQ : program[MPC];
- if (TRACE_MICRO) logerror("MPC = %d, op = %d\n", MPC, op);
+ if (IS_ENABLED(TRACE_MICRO)) logerror("MPC = %d, op = %d\n", MPC, op);
// Call the operation of the microprogram
(this->*s_microoperation[op])();
// If we have multiple passes (as in the TMS9980)
@@ -1282,7 +1282,7 @@ void tms99xx_device::execute_run()
}
}
} while (m_icount>0 && !m_reset);
- if (TRACE_EMU) logerror("cycles expired; will return soon.\n");
+ if (IS_ENABLED(TRACE_EMU)) logerror("cycles expired; will return soon.\n");
}
/**************************************************************************/
@@ -1310,11 +1310,11 @@ void tms99xx_device::execute_set_input(int irqline, int state)
if (state==ASSERT_LINE)
{
m_irq_level = get_intlevel(state);
- if (TRACE_INT) logerror("/INT asserted, level=%d, ST=%04x\n", m_irq_level, ST);
+ if (IS_ENABLED(TRACE_INT)) logerror("/INT asserted, level=%d, ST=%04x\n", m_irq_level, ST);
}
else
{
- if (TRACE_INT) logerror("/INT cleared\n");
+ if (IS_ENABLED(TRACE_INT)) logerror("/INT cleared\n");
}
}
}
@@ -1362,7 +1362,7 @@ void tms99xx_device::service_interrupt()
m_reset = false;
}
- if (TRACE_INT)
+ if (IS_ENABLED(TRACE_INT))
{
switch (m_irq_level)
{
@@ -1387,7 +1387,7 @@ void tms99xx_device::pulse_clock(int count)
m_ready = m_ready_bufd; // get the latched READY state
if (!m_clock_out_line.isnull()) m_clock_out_line(CLEAR_LINE);
m_icount--; // This is the only location where we count down the cycles.
- if (TRACE_CLOCK)
+ if (IS_ENABLED(TRACE_CLOCK))
{
if (m_check_ready) logerror("pulse_clock, READY=%d\n", m_ready? 1:0);
else logerror("pulse_clock\n");
@@ -1460,7 +1460,7 @@ void tms99xx_device::decode(uint16_t inst)
while (!complete)
{
ix = (opcode >> 12) & 0x000f;
- if (TRACE_MICRO) logerror("Check next hex digit of instruction %x\n", ix);
+ if (IS_ENABLED(TRACE_MICRO)) logerror("Check next hex digit of instruction %x\n", ix);
if (table[ix].next_digit != nullptr)
{
table = table[ix].next_digit.get();
@@ -1482,7 +1482,7 @@ void tms99xx_device::decode(uint16_t inst)
const tms_instruction decoded = s_command[m_program_index];
MPC = -1;
m_command = decoded.id;
- if (TRACE_MICRO) logerror("Command decoded as id %d, %s, base opcode %04x\n", m_command, opname[m_command], decoded.opcode);
+ if (IS_ENABLED(TRACE_MICRO)) logerror("Command decoded as id %d, %s, base opcode %04x\n", m_command, opname[m_command], decoded.opcode);
// Byte operations are either format 1 with the byte flag set
// or format 4 (CRU multi bit operations) with 1-8 bits to transfer.
m_byteop = ((decoded.format==1 && ((IR & 0x1000)!=0))
@@ -1510,7 +1510,7 @@ void tms99xx_device::acquire_instruction()
if (m_mem_phase == 1)
{
decode(m_current_value);
- if (TRACE_EXEC) logerror("%04x: %04x (%s)\n", PC, IR, opname[m_command]);
+ if (IS_ENABLED(TRACE_EXEC)) logerror("%04x: %04x (%s)\n", PC, IR, opname[m_command]);
debugger_instruction_hook(this, PC);
PC = (PC + 2) & 0xfffe & m_prgaddr_mask;
// IAQ will be cleared in the main loop
@@ -1534,7 +1534,7 @@ void tms99xx_device::mem_read()
m_check_ready = true;
m_mem_phase = 2;
m_pass = 2;
- if (TRACE_ADDRESSBUS) logerror("set address (r) %04x\n", m_address);
+ if (IS_ENABLED(TRACE_ADDRESSBUS)) logerror("set address (r) %04x\n", m_address);
pulse_clock(1); // Concludes the first cycle
// If READY has been found to be low, the CPU will now stay in the wait state loop
@@ -1546,7 +1546,7 @@ void tms99xx_device::mem_read()
pulse_clock(1);
if (!m_dbin_line.isnull()) m_dbin_line(CLEAR_LINE);
m_mem_phase = 1; // reset to phase 1
- if (TRACE_MEM) logerror("mem r %04x -> %04x\n", m_address, m_current_value);
+ if (IS_ENABLED(TRACE_MEM)) logerror("mem r %04x -> %04x\n", m_address, m_current_value);
}
}
@@ -1556,9 +1556,9 @@ void tms99xx_device::mem_write()
{
if (!m_dbin_line.isnull()) m_dbin_line(CLEAR_LINE);
// When writing, the data bus is asserted immediately after the address bus
- if (TRACE_ADDRESSBUS) logerror("set address (w) %04x\n", m_address);
+ if (IS_ENABLED(TRACE_ADDRESSBUS)) logerror("set address (w) %04x\n", m_address);
m_prgspace->set_address(m_address & m_prgaddr_mask & 0xfffe);
- if (TRACE_MEM) logerror("mem w %04x <- %04x\n", m_address, m_current_value);
+ if (IS_ENABLED(TRACE_MEM)) logerror("mem w %04x <- %04x\n", m_address, m_current_value);
m_prgspace->write_word(m_address & m_prgaddr_mask & 0xfffe, m_current_value);
m_check_ready = true;
m_mem_phase = 2;
@@ -1676,7 +1676,7 @@ void tms99xx_device::cru_output_operation()
// Write m_count bits from cru_address
for (int i=0; i < m_count; i++)
{
- if (TRACE_CRU) logerror("CRU output operation, address %04x, value %d\n", location<<1, value & 0x01);
+ if (IS_ENABLED(TRACE_CRU)) logerror("CRU output operation, address %04x, value %d\n", location<<1, value & 0x01);
m_cru->write_byte(location, (value & 0x01));
value >>= 1;
location = (location + 1) & m_cruaddr_mask;
@@ -1697,7 +1697,7 @@ void tms99xx_device::return_from_subprogram()
void tms99xx_device::command_completed()
{
// Pseudo state at the end of the current instruction cycle sequence
- if (TRACE_CYCLES)
+ if (IS_ENABLED(TRACE_CYCLES))
{
logerror("------");
int cycles = m_first_cycle - m_icount;
@@ -1764,7 +1764,7 @@ inline void tms99xx_device::compare_and_set_lae(uint16_t value1, uint16_t value2
set_status_bit(ST_EQ, value1 == value2);
set_status_bit(ST_LH, value1 > value2);
set_status_bit(ST_AGT, (int16_t)value1 > (int16_t)value2);
- if (TRACE_STATUS) logerror("ST = %04x (val1=%04x, val2=%04x)\n", ST, value1, value2);
+ if (IS_ENABLED(TRACE_STATUS)) logerror("ST = %04x (val1=%04x, val2=%04x)\n", ST, value1, value2);
}
/**************************************************************************
@@ -2001,7 +2001,7 @@ void tms99xx_device::alu_f3()
compare_and_set_lae(m_current_value, 0);
}
}
- if (TRACE_STATUS) logerror("ST = %04x\n", ST);
+ if (IS_ENABLED(TRACE_STATUS)) logerror("ST = %04x\n", ST);
break;
}
@@ -2020,7 +2020,7 @@ void tms99xx_device::alu_multiply()
m_address = ((IR >> 5) & 0x001e) + WP;
break;
case 1: // After reading the register (multiplier)
- if (TRACE_ALU) logerror("Multiply %04x by %04x\n", m_current_value, m_source_value);
+ if (IS_ENABLED(TRACE_ALU)) logerror("Multiply %04x by %04x\n", m_current_value, m_source_value);
result = (m_source_value & 0x0000ffff) * (m_current_value & 0x0000ffff);
m_current_value = (result >> 16) & 0xffff;
m_value_copy = result & 0xffff;
@@ -2069,11 +2069,11 @@ void tms99xx_device::alu_divide()
// Create full word and perform division
uval32 = (m_value_copy << 16) | m_current_value;
- if (TRACE_ALU) logerror("Dividing %08x by %04x\n", uval32, m_source_value);
+ if (IS_ENABLED(TRACE_ALU)) logerror("Dividing %08x by %04x\n", uval32, m_source_value);
m_current_value = uval32 / m_source_value;
m_value_copy = uval32 % m_source_value;
- if (TRACE_ALU) logerror("Quotient %04x, remainder %04x\n", m_current_value, m_value_copy);
+ if (IS_ENABLED(TRACE_ALU)) logerror("Quotient %04x, remainder %04x\n", m_current_value, m_value_copy);
m_address = m_address_copy;
@@ -2099,7 +2099,7 @@ void tms99xx_device::alu_divide()
// Prepare to write the remainder
m_current_value = m_value_copy;
m_address = m_address + 2;
- if (TRACE_STATUS) logerror("ST = %04x (div)\n", ST);
+ if (IS_ENABLED(TRACE_STATUS)) logerror("ST = %04x (div)\n", ST);
break;
}
pulse_clock(2);
@@ -2249,7 +2249,7 @@ void tms99xx_device::alu_abs()
void tms99xx_device::alu_x()
{
- if (TRACE_ALU) logerror("Substituting current command by %04x\n", m_current_value);
+ if (IS_ENABLED(TRACE_ALU)) logerror("Substituting current command by %04x\n", m_current_value);
decode(m_current_value);
pulse_clock(2);
}
@@ -2269,7 +2269,7 @@ void tms99xx_device::alu_b()
m_current_value = PC;
PC = m_address & m_prgaddr_mask & 0xfffe;
m_address = WP + 22;
- if (TRACE_ALU) logerror("Set new PC = %04x\n", PC);
+ if (IS_ENABLED(TRACE_ALU)) logerror("Set new PC = %04x\n", PC);
pulse_clock(2);
}
@@ -2297,7 +2297,7 @@ void tms99xx_device::alu_blwp()
break;
case 4:
PC = m_current_value & m_prgaddr_mask & 0xfffe;
- if (TRACE_ALU) logerror("tms9900: Context switch complete; WP=%04x, PC=%04x, ST=%04x\n", WP, PC, ST);
+ if (IS_ENABLED(TRACE_ALU)) logerror("tms9900: Context switch complete; WP=%04x, PC=%04x, ST=%04x\n", WP, PC, ST);
break;
}
pulse_clock(2);
@@ -2339,7 +2339,7 @@ void tms99xx_device::alu_ldcr()
}
m_cru_address = m_current_value;
m_value = value;
- if (TRACE_CRU) logerror("Load CRU address %04x (%d bits), value = %04x\n", m_cru_address, m_count, m_value);
+ if (IS_ENABLED(TRACE_CRU)) logerror("Load CRU address %04x (%d bits), value = %04x\n", m_cru_address, m_count, m_value);
}
m_state++;
pulse_clock(2);
@@ -2371,7 +2371,7 @@ void tms99xx_device::alu_stcr()
value = m_value & 0xffff;
if (m_count < 9)
{
- if (TRACE_CRU) logerror("Store CRU at %04x (%d bits) in %04x, result = %02x\n", m_cru_address, m_count, m_source_address, value);
+ if (IS_ENABLED(TRACE_CRU)) logerror("Store CRU at %04x (%d bits) in %04x, result = %02x\n", m_cru_address, m_count, m_source_address, value);
set_status_parity((uint8_t)(value & 0xff));
compare_and_set_lae(value<<8, 0);
if (m_source_even)
@@ -2383,7 +2383,7 @@ void tms99xx_device::alu_stcr()
}
else
{
- if (TRACE_CRU) logerror("Store CRU at %04x (%d bits) in %04x, result = %04x\n", m_cru_address, m_count, m_source_address, value);
+ if (IS_ENABLED(TRACE_CRU)) logerror("Store CRU at %04x (%d bits) in %04x, result = %04x\n", m_cru_address, m_count, m_source_address, value);
m_current_value = value;
compare_and_set_lae(value, 0);
pulse_clock(2*(5 + (16-m_count)));
@@ -2429,7 +2429,7 @@ void tms99xx_device::alu_tb()
break;
case 2:
set_status_bit(ST_EQ, m_value!=0);
- if (TRACE_STATUS) logerror("ST = %04x\n", ST);
+ if (IS_ENABLED(TRACE_STATUS)) logerror("ST = %04x\n", ST);
break;
}
m_state++;
@@ -2487,11 +2487,11 @@ void tms99xx_device::alu_jmp()
}
if (!cond)
{
- if (TRACE_ALU) logerror("Jump condition false\n");
+ if (IS_ENABLED(TRACE_ALU)) logerror("Jump condition false\n");
MPC+=1; // skip next ALU call
}
else
- if (TRACE_ALU) logerror("Jump condition true\n");
+ if (IS_ENABLED(TRACE_ALU)) logerror("Jump condition true\n");
}
else
{
@@ -2532,7 +2532,7 @@ void tms99xx_device::alu_shift()
}
else
{
- if (TRACE_ALU) logerror("Shift operation gets count from R0\n");
+ if (IS_ENABLED(TRACE_ALU)) logerror("Shift operation gets count from R0\n");
pulse_clock(2);
}
pulse_clock(2);
@@ -2581,7 +2581,7 @@ void tms99xx_device::alu_shift()
set_status_bit(ST_OV, overflow);
compare_and_set_lae(m_current_value, 0);
m_address = m_address_saved; // Register address
- if (TRACE_STATUS) logerror("ST = %04x (val=%04x)\n", ST, m_current_value);
+ if (IS_ENABLED(TRACE_STATUS)) logerror("ST = %04x (val=%04x)\n", ST, m_current_value);
break;
}
m_state++;
@@ -2632,7 +2632,7 @@ void tms99xx_device::alu_lwpi()
void tms99xx_device::alu_limi()
{
ST = (ST & 0xfff0) | (m_current_value & 0x000f);
- if (TRACE_STATUS) logerror("ST = %04x\n", ST);
+ if (IS_ENABLED(TRACE_STATUS)) logerror("ST = %04x\n", ST);
pulse_clock(2);
}
@@ -2688,7 +2688,7 @@ void tms99xx_device::alu_rtwp()
void tms99xx_device::alu_int()
{
- if (TRACE_EMU) logerror("INT state %d; irq_level %d\n", m_state, m_irq_level);
+ if (IS_ENABLED(TRACE_EMU)) logerror("INT state %d; irq_level %d\n", m_state, m_irq_level);
switch (m_state)
{
case 0:
@@ -2723,7 +2723,7 @@ void tms99xx_device::alu_int()
break;
case 4:
m_address = (m_address_copy + 2) & 0xfffe & m_prgaddr_mask;
- if (TRACE_ALU) logerror("read from %04x\n", m_address);
+ if (IS_ENABLED(TRACE_ALU)) logerror("read from %04x\n", m_address);
break;
case 5:
PC = m_current_value & m_prgaddr_mask & 0xfffe;
diff --git a/src/devices/cpu/tms9900/tms9980a.cpp b/src/devices/cpu/tms9900/tms9980a.cpp
index 5cb028e543a..f536205c09f 100644
--- a/src/devices/cpu/tms9900/tms9980a.cpp
+++ b/src/devices/cpu/tms9900/tms9980a.cpp
@@ -148,7 +148,7 @@ void tms9980a_device::execute_set_input(int irqline, int state)
// Clear all interrupts
m_load_state = false;
m_irq_state = false;
- if (TRACE_INT) logerror("tms9980a: clear interrupts\n");
+ if (IS_ENABLED(TRACE_INT)) logerror("tms9980a: clear interrupts\n");
break;
}
@@ -163,7 +163,7 @@ void tms9980a_device::execute_set_input(int irqline, int state)
m_load_state = true;
}
else m_irq_state = true;
- if (TRACE_INT) logerror("tms9980a: interrupt level=%d, ST=%04x\n", m_irq_level, ST);
+ if (IS_ENABLED(TRACE_INT)) logerror("tms9980a: interrupt level=%d, ST=%04x\n", m_irq_level, ST);
}
}
@@ -182,24 +182,24 @@ void tms9980a_device::mem_read()
m_pass = 4; // make the CPU visit this method more than once
if (!m_dbin_line.isnull()) m_dbin_line(ASSERT_LINE);
m_prgspace->set_address(m_address & m_prgaddr_mask & ~1);
- if (TRACE_ADDRESSBUS) logerror("tms9980a: set address bus %04x\n", m_address & m_prgaddr_mask & ~1);
+ if (IS_ENABLED(TRACE_ADDRESSBUS)) logerror("tms9980a: set address bus %04x\n", m_address & m_prgaddr_mask & ~1);
m_check_ready = true;
break;
case 2:
// Sample the value on the data bus (high byte)
value = m_prgspace->read_byte(m_address & m_prgaddr_mask & ~1);
- if (TRACE_MEM) logerror("tms9980a: memory read high byte %04x -> %02x\n", m_address & m_prgaddr_mask & ~1, value);
+ if (IS_ENABLED(TRACE_MEM)) logerror("tms9980a: memory read high byte %04x -> %02x\n", m_address & m_prgaddr_mask & ~1, value);
m_current_value = (value << 8) & 0xff00;
break;
case 3:
m_prgspace->set_address((m_address & m_prgaddr_mask) | 1);
- if (TRACE_ADDRESSBUS) logerror("tms9980a: set address bus %04x\n", (m_address & m_prgaddr_mask) | 1);
+ if (IS_ENABLED(TRACE_ADDRESSBUS)) logerror("tms9980a: set address bus %04x\n", (m_address & m_prgaddr_mask) | 1);
break;
case 4:
// Sample the value on the data bus (low byte)
value = m_prgspace->read_byte((m_address & m_prgaddr_mask) | 1);
m_current_value = m_current_value | (value & 0x00ff);
- if (TRACE_MEM) logerror("tms9980a: memory read low byte %04x -> %02x -> complete word %04x\n", (m_address & m_prgaddr_mask) | 1, value, m_current_value);
+ if (IS_ENABLED(TRACE_MEM)) logerror("tms9980a: memory read low byte %04x -> %02x -> complete word %04x\n", (m_address & m_prgaddr_mask) | 1, value, m_current_value);
break;
}
pulse_clock(1);
@@ -215,9 +215,9 @@ void tms9980a_device::mem_write()
m_pass = 4; // make the CPU visit this method once more
if (!m_dbin_line.isnull()) m_dbin_line(CLEAR_LINE);
m_prgspace->set_address(m_address & m_prgaddr_mask & ~1);
- if (TRACE_ADDRESSBUS) logerror("tms9980a: set address bus %04x\n", m_address & m_prgaddr_mask & ~1);
+ if (IS_ENABLED(TRACE_ADDRESSBUS)) logerror("tms9980a: set address bus %04x\n", m_address & m_prgaddr_mask & ~1);
m_prgspace->write_byte(m_address & 0x3ffe & ~1, (m_current_value >> 8)&0xff);
- if (TRACE_MEM) logerror("tms9980a: memory write high byte %04x <- %02x\n", m_address & m_prgaddr_mask & ~1, (m_current_value >> 8)&0xff);
+ if (IS_ENABLED(TRACE_MEM)) logerror("tms9980a: memory write high byte %04x <- %02x\n", m_address & m_prgaddr_mask & ~1, (m_current_value >> 8)&0xff);
m_check_ready = true;
break;
case 2:
@@ -225,9 +225,9 @@ void tms9980a_device::mem_write()
break;
case 3:
m_prgspace->set_address((m_address & m_prgaddr_mask) | 1);
- if (TRACE_ADDRESSBUS) logerror("tms9980a: set address bus %04x\n", (m_address & m_prgaddr_mask) | 1);
+ if (IS_ENABLED(TRACE_ADDRESSBUS)) logerror("tms9980a: set address bus %04x\n", (m_address & m_prgaddr_mask) | 1);
m_prgspace->write_byte((m_address & m_prgaddr_mask) | 1, m_current_value & 0xff);
- if (TRACE_MEM) logerror("tms9980a: memory write low byte %04x <- %02x\n", (m_address & m_prgaddr_mask) | 1, m_current_value & 0xff);
+ if (IS_ENABLED(TRACE_MEM)) logerror("tms9980a: memory write low byte %04x <- %02x\n", (m_address & m_prgaddr_mask) | 1, m_current_value & 0xff);
break;
case 4:
// no action here, just wait for READY
@@ -250,7 +250,7 @@ void tms9980a_device::acquire_instruction()
if (m_mem_phase == 1) // changed by mem_read and wrapped
{
decode(m_current_value);
- if (TRACE_OP) logerror("tms9980a: ===== Next operation %04x (%s) at %04x =====\n", IR, opname[m_command], PC);
+ if (IS_ENABLED(TRACE_OP)) logerror("tms9980a: ===== Next operation %04x (%s) at %04x =====\n", IR, opname[m_command], PC);
debugger_instruction_hook(this, PC);
PC = (PC + 2) & 0xfffe & m_prgaddr_mask;
}
diff --git a/src/devices/cpu/tms9900/tms9995.cpp b/src/devices/cpu/tms9900/tms9995.cpp
index b161ec05ce3..44b48e1b7dc 100644
--- a/src/devices/cpu/tms9900/tms9995.cpp
+++ b/src/devices/cpu/tms9900/tms9995.cpp
@@ -271,7 +271,7 @@ void tms9995_device::device_start()
// Set up the lookup table for command decoding
build_command_lookup_table();
- if (TRACE_CONFIG) logerror("%s: Variant = %s, Overflow int = %s\n", tag(), m_mp9537? "MP9537 (no on-chip RAM)" : "with on-chip RAM", m_check_overflow? "check" : "no check");
+ if (IS_ENABLED(TRACE_CONFIG)) logerror("%s: Variant = %s, Overflow int = %s\n", tag(), m_mp9537? "MP9537 (no on-chip RAM)" : "with on-chip RAM", m_check_overflow? "check" : "no check");
// Register persistable state variables
// save_item(NAME(m_state_any)); // only for debugger output
@@ -1216,7 +1216,7 @@ void tms9995_device::build_command_lookup_table()
{
inst = &s_command[i];
table = m_command_lookup_table.get();
- if (TRACE_EMU) logerror("=== opcode=%04x, len=%d\n", inst->opcode, format_mask_len[inst->format]);
+ if (IS_ENABLED(TRACE_EMU)) logerror("=== opcode=%04x, len=%d\n", inst->opcode, format_mask_len[inst->format]);
bitcount = 4;
opcode = inst->opcode;
cmdindex = (opcode>>12) & 0x000f;
@@ -1226,7 +1226,7 @@ void tms9995_device::build_command_lookup_table()
// Descend
if (table[cmdindex].next_digit == nullptr)
{
- if (TRACE_EMU) logerror("create new table at bitcount=%d for index=%d\n", bitcount, cmdindex);
+ if (IS_ENABLED(TRACE_EMU)) logerror("create new table at bitcount=%d for index=%d\n", bitcount, cmdindex);
table[cmdindex].next_digit = std::make_unique<lookup_entry[]>(16);
for (int j=0; j < 16; j++)
{
@@ -1236,7 +1236,7 @@ void tms9995_device::build_command_lookup_table()
}
else
{
- if (TRACE_EMU) logerror("found a table at bitcount=%d\n", bitcount);
+ if (IS_ENABLED(TRACE_EMU)) logerror("found a table at bitcount=%d\n", bitcount);
}
table = table[cmdindex].next_digit.get();
@@ -1244,17 +1244,17 @@ void tms9995_device::build_command_lookup_table()
bitcount = bitcount+4;
opcode <<= 4;
cmdindex = (opcode>>12) & 0x000f;
- if (TRACE_EMU) logerror("next index=%x\n", cmdindex);
+ if (IS_ENABLED(TRACE_EMU)) logerror("next index=%x\n", cmdindex);
}
- if (TRACE_EMU) logerror("bitcount=%d\n", bitcount);
+ if (IS_ENABLED(TRACE_EMU)) logerror("bitcount=%d\n", bitcount);
// We are at the target level
// Need to fill in the same entry for all values in the bitcount
// (if a command needs 10 bits we have to copy it four
// times for all combinations with 12 bits)
for (int j=0; j < (1<<(bitcount-format_mask_len[inst->format])); j++)
{
- if (TRACE_EMU) logerror("opcode=%04x at position %d\n", inst->opcode, cmdindex+j);
+ if (IS_ENABLED(TRACE_EMU)) logerror("opcode=%04x at position %d\n", inst->opcode, cmdindex+j);
table[cmdindex+j].index = i;
}
@@ -1278,14 +1278,14 @@ void tms9995_device::execute_run()
{
if (m_reset) service_interrupt();
- if (TRACE_EMU) logerror("calling execute_run for %d cycles\n", m_icount);
+ if (IS_ENABLED(TRACE_EMU)) logerror("calling execute_run for %d cycles\n", m_icount);
do
{
// Normal operation
if (m_check_ready && m_ready == false)
{
// We are in a wait state
- if (TRACE_WAITHOLD) logerror("wait state\n");
+ if (IS_ENABLED(TRACE_WAITHOLD)) logerror("wait state\n");
// The clock output should be used to change the state of an outer
// device which operates the READY line
pulse_clock(1);
@@ -1295,7 +1295,7 @@ void tms9995_device::execute_run()
if (m_check_hold && m_hold_requested)
{
set_hold_state(true);
- if (TRACE_WAITHOLD) logerror("HOLD state\n");
+ if (IS_ENABLED(TRACE_WAITHOLD)) logerror("HOLD state\n");
pulse_clock(1);
}
else
@@ -1304,7 +1304,7 @@ void tms9995_device::execute_run()
m_check_ready = false;
- if (TRACE_MICRO) logerror("main loop, operation %s, MPC = %d\n", opname[m_command], MPC);
+ if (IS_ENABLED(TRACE_MICRO)) logerror("main loop, operation %s, MPC = %d\n", opname[m_command], MPC);
uint8_t* program = (uint8_t*)s_command[m_index].prog;
(this->*s_microoperation[program[MPC]])();
@@ -1320,7 +1320,7 @@ void tms9995_device::execute_run()
}
} while (m_icount>0 && !m_reset);
- if (TRACE_EMU) logerror("cycles expired; will return soon.\n");
+ if (IS_ENABLED(TRACE_EMU)) logerror("cycles expired; will return soon.\n");
}
/**************************************************************************/
@@ -1347,28 +1347,28 @@ void tms9995_device::execute_set_input(int irqline, int state)
if (irqline == INPUT_LINE_NMI)
{
m_nmi_active = (state==ASSERT_LINE);
- if (TRACE_INT) logerror("NMI interrupt line state=%d\n", state);
+ if (IS_ENABLED(TRACE_INT)) logerror("NMI interrupt line state=%d\n", state);
}
else
{
if (irqline == INT_9995_INT1)
{
m_int1_active = m_flag[2] = (state==ASSERT_LINE);
- if (TRACE_INT) logerror("Line INT1 state=%d\n", state);
+ if (IS_ENABLED(TRACE_INT)) logerror("Line INT1 state=%d\n", state);
}
else
{
if (irqline == INT_9995_INT4)
{
- if (TRACE_INT) logerror("Line INT4/EC state=%d\n", state);
+ if (IS_ENABLED(TRACE_INT)) logerror("Line INT4/EC state=%d\n", state);
if (m_flag[0]==false)
{
- if (TRACE_INT) logerror("set as interrupt\n");
+ if (IS_ENABLED(TRACE_INT)) logerror("set as interrupt\n");
m_int4_active = m_flag[4] = (state==ASSERT_LINE);
}
else
{
- if (TRACE_INT) logerror("set as event count\n");
+ if (IS_ENABLED(TRACE_INT)) logerror("set as event count\n");
trigger_decrementer();
}
}
@@ -1400,7 +1400,7 @@ void tms9995_device::pulse_clock(int count)
m_ready = m_ready_bufd && !m_request_auto_wait_state; // get the latched READY state
if (!m_clock_out_line.isnull()) m_clock_out_line(CLEAR_LINE);
m_icount--; // This is the only location where we count down the cycles.
- if (TRACE_CLOCK)
+ if (IS_ENABLED(TRACE_CLOCK))
{
if (m_check_ready) logerror("pulse_clock, READY=%d, auto_wait=%d\n", m_ready_bufd? 1:0, m_auto_wait? 1:0);
else logerror("pulse_clock\n");
@@ -1422,7 +1422,7 @@ void tms9995_device::pulse_clock(int count)
WRITE_LINE_MEMBER( tms9995_device::hold_line )
{
m_hold_requested = (state==ASSERT_LINE);
- if (TRACE_WAITHOLD) logerror("set HOLD = %d\n", state);
+ if (IS_ENABLED(TRACE_WAITHOLD)) logerror("set HOLD = %d\n", state);
if (!m_hold_requested)
{
if (!m_holda_line.isnull()) m_holda_line(CLEAR_LINE);
@@ -1439,7 +1439,7 @@ WRITE_LINE_MEMBER( tms9995_device::ready_line )
else
{
m_ready_bufd = (state==ASSERT_LINE);
- if (TRACE_READY) logerror("set READY = %d\n", m_ready_bufd? 1 : 0);
+ if (IS_ENABLED(TRACE_READY)) logerror("set READY = %d\n", m_ready_bufd? 1 : 0);
}
}
@@ -1481,7 +1481,7 @@ void tms9995_device::decode(uint16_t inst)
while (!complete)
{
ix = (opcode >> 12) & 0x000f;
- if (TRACE_EMU) logerror("Check next hex digit of instruction %x\n", ix);
+ if (IS_ENABLED(TRACE_EMU)) logerror("Check next hex digit of instruction %x\n", ix);
if (table[ix].next_digit != nullptr)
{
table = table[ix].next_digit.get();
@@ -1506,7 +1506,7 @@ void tms9995_device::decode(uint16_t inst)
m_pre_command = decoded.id;
m_pre_index = program_index;
m_pre_byteop = ((decoded.format == 1) && ((inst & 0x1000)!=0));
- if (TRACE_EMU) logerror("Command decoded as id %d, %s, base opcode %04x\n", decoded.id, opname[decoded.id], decoded.opcode);
+ if (IS_ENABLED(TRACE_EMU)) logerror("Command decoded as id %d, %s, base opcode %04x\n", decoded.id, opname[decoded.id], decoded.opcode);
m_pass = 1;
}
}
@@ -1526,7 +1526,7 @@ void tms9995_device::int_prefetch_and_decode()
// Check interrupt lines
if (m_nmi_active)
{
- if (TRACE_INT) logerror("Checking interrupts ... NMI active\n");
+ if (IS_ENABLED(TRACE_INT)) logerror("Checking interrupts ... NMI active\n");
m_int_pending |= PENDING_NMI;
m_idle_state = false;
PC = (PC + 2) & 0xfffe; // we have not prefetched the next instruction
@@ -1549,19 +1549,19 @@ void tms9995_device::int_prefetch_and_decode()
if (m_idle_state)
{
m_idle_state = false;
- if (TRACE_INT) logerror("Interrupt occurred, terminate IDLE state\n");
+ if (IS_ENABLED(TRACE_INT)) logerror("Interrupt occurred, terminate IDLE state\n");
}
PC = PC + 2; // PC must be advanced (see flow chart), but no prefetch
- if (TRACE_INT) logerror("Interrupts pending; no prefetch; advance PC to %04x\n", PC);
+ if (IS_ENABLED(TRACE_INT)) logerror("Interrupts pending; no prefetch; advance PC to %04x\n", PC);
return;
}
else
{
- if (TRACE_INT) logerror("Checking interrupts ... none pending\n");
+ if (IS_ENABLED(TRACE_INT)) logerror("Checking interrupts ... none pending\n");
// No pending interrupts
if (m_idle_state)
{
- if (TRACE_WAITHOLD) logerror("IDLE state\n");
+ if (IS_ENABLED(TRACE_WAITHOLD)) logerror("IDLE state\n");
// We are IDLE, stay in the loop and do not advance the PC
m_pass = 2;
pulse_clock(1);
@@ -1591,7 +1591,7 @@ void tms9995_device::prefetch_and_decode()
m_value_copy = m_current_value;
if (!m_iaq_line.isnull()) m_iaq_line(ASSERT_LINE);
m_address = PC;
- if (TRACE_OP) logerror("**** Prefetching new instruction at %04x ****\n", PC);
+ if (IS_ENABLED(TRACE_OP)) logerror("**** Prefetching new instruction at %04x ****\n", PC);
}
word_read(); // changes m_mem_phase
@@ -1604,7 +1604,7 @@ void tms9995_device::prefetch_and_decode()
m_current_value = m_value_copy; // restore m_current_value
PC = (PC + 2) & 0xfffe; // advance PC
if (!m_iaq_line.isnull()) m_iaq_line(CLEAR_LINE);
- if (TRACE_OP) logerror("++++ Prefetch done ++++\n");
+ if (IS_ENABLED(TRACE_OP)) logerror("++++ Prefetch done ++++\n");
}
}
@@ -1635,9 +1635,9 @@ void tms9995_device::next_command()
// This is a preset for opcodes which do not need an opcode address derivation
m_address = WP + ((IR & 0x000f)<<1);
MPC = -1;
- if (TRACE_OP) logerror("===== Next operation %04x (%s) at %04x =====\n", IR, opname[m_command], PC-2);
+ if (IS_ENABLED(TRACE_OP)) logerror("===== Next operation %04x (%s) at %04x =====\n", IR, opname[m_command], PC-2);
- if (TRACE_EXEC)
+ if (IS_ENABLED(TRACE_EXEC))
{
if (m_servicing_interrupt) logerror("i%04x\n", PC-2);
else logerror("%04x\n", PC-2);
@@ -1654,7 +1654,7 @@ void tms9995_device::next_command()
void tms9995_device::command_completed()
{
// Pseudo state at the end of the current instruction cycle sequence
- if (TRACE_CYCLES)
+ if (IS_ENABLED(TRACE_CYCLES))
{
logerror("+++++ Instruction %04x (%s) completed", IR, opname[m_command]);
int cycles = m_first_cycle - m_icount;
@@ -1716,7 +1716,7 @@ void tms9995_device::service_interrupt()
vectorpos = 0x0008;
m_intmask = 0x0001;
PC = (PC + 2) & 0xfffe;
- if (TRACE_INT) logerror("***** MID pending\n");
+ if (IS_ENABLED(TRACE_INT)) logerror("***** MID pending\n");
m_mid_active = false;
}
else
@@ -1726,7 +1726,7 @@ void tms9995_device::service_interrupt()
vectorpos = 0xfffc;
m_int_pending &= ~PENDING_NMI;
m_intmask = 0;
- if (TRACE_INT) logerror("***** NMI pending\n");
+ if (IS_ENABLED(TRACE_INT)) logerror("***** NMI pending\n");
}
else
{
@@ -1736,7 +1736,7 @@ void tms9995_device::service_interrupt()
m_int_pending &= ~PENDING_LEVEL1;
m_flag[2] = false;
m_intmask = 0;
- if (TRACE_INT) logerror("***** INT1 pending\n");
+ if (IS_ENABLED(TRACE_INT)) logerror("***** INT1 pending\n");
}
else
{
@@ -1745,7 +1745,7 @@ void tms9995_device::service_interrupt()
vectorpos = 0x0008;
m_int_pending &= ~PENDING_OVERFLOW;
m_intmask = 0x0001;
- if (TRACE_INT) logerror("***** OVERFL pending\n");
+ if (IS_ENABLED(TRACE_INT)) logerror("***** OVERFL pending\n");
}
else
{
@@ -1756,7 +1756,7 @@ void tms9995_device::service_interrupt()
m_int_pending &= ~PENDING_DECR;
m_flag[3] = false;
m_int_decrementer = false;
- if (TRACE_DEC) logerror("***** DECR pending\n");
+ if (IS_ENABLED(TRACE_DEC)) logerror("***** DECR pending\n");
}
else
{
@@ -1764,7 +1764,7 @@ void tms9995_device::service_interrupt()
m_intmask = 0x0003;
m_int_pending &= ~PENDING_LEVEL4;
m_flag[4] = false;
- if (TRACE_INT) logerror("***** INT4 pending\n");
+ if (IS_ENABLED(TRACE_INT)) logerror("***** INT4 pending\n");
}
}
}
@@ -1772,7 +1772,7 @@ void tms9995_device::service_interrupt()
}
}
- if (TRACE_INT) logerror("********* triggered an interrupt with vector %04x/%04x\n", vectorpos, vectorpos+2);
+ if (IS_ENABLED(TRACE_INT)) logerror("********* triggered an interrupt with vector %04x/%04x\n", vectorpos, vectorpos+2);
// just for debugging purposes
if (!m_reset) m_servicing_interrupt = true;
@@ -1824,7 +1824,7 @@ void tms9995_device::mem_read()
if ((m_address & 0xfffe)==0xfffa && !m_mp9537)
{
- if (TRACE_DEC) logerror("read decrementer\n");
+ if (IS_ENABLED(TRACE_DEC)) logerror("read decrementer\n");
// Decrementer mapped into the address space
m_current_value = m_decrementer_value;
if (m_byteop)
@@ -1843,7 +1843,7 @@ void tms9995_device::mem_read()
// byte operations (e.g. when retrieving the index register)
if (m_word_access || !m_byteop) m_address &= 0xfffe;
- if (TRACE_MEM) logerror("read onchip memory (single pass, address %04x)\n", m_address);
+ if (IS_ENABLED(TRACE_MEM)) logerror("read onchip memory (single pass, address %04x)\n", m_address);
// Ignore the READY state
m_check_ready = false;
@@ -1878,7 +1878,7 @@ void tms9995_device::mem_read()
else m_pass = 2;
m_check_hold = false;
- if (TRACE_ADDRESSBUS) logerror("set address bus %04x\n", m_address & ~1);
+ if (IS_ENABLED(TRACE_ADDRESSBUS)) logerror("set address bus %04x\n", m_address & ~1);
m_prgspace->set_address(address);
m_request_auto_wait_state = m_auto_wait;
pulse_clock(1);
@@ -1887,12 +1887,12 @@ void tms9995_device::mem_read()
// Sample the value on the data bus (high byte)
if (m_word_access || !m_byteop) address &= 0xfffe;
value = m_prgspace->read_byte(address);
- if (TRACE_MEM) logerror("memory read byte %04x -> %02x\n", m_address & ~1, value);
+ if (IS_ENABLED(TRACE_MEM)) logerror("memory read byte %04x -> %02x\n", m_address & ~1, value);
m_current_value = (value << 8) & 0xff00;
break;
case 3:
// Set address + 1 (unless byte command)
- if (TRACE_ADDRESSBUS) logerror("set address bus %04x\n", m_address | 1);
+ if (IS_ENABLED(TRACE_ADDRESSBUS)) logerror("set address bus %04x\n", m_address | 1);
m_prgspace->set_address(m_address | 1);
m_request_auto_wait_state = m_auto_wait;
pulse_clock(1);
@@ -1901,7 +1901,7 @@ void tms9995_device::mem_read()
// Read low byte
value = m_prgspace->read_byte(m_address | 1);
m_current_value |= value;
- if (TRACE_MEM) logerror("memory read byte %04x -> %02x, complete word = %04x\n", m_address | 1, value, m_current_value);
+ if (IS_ENABLED(TRACE_MEM)) logerror("memory read byte %04x -> %02x, complete word = %04x\n", m_address | 1, value, m_current_value);
m_check_hold = true;
break;
}
@@ -1969,7 +1969,7 @@ void tms9995_device::mem_write()
{
m_starting_count_storage_register = m_decrementer_value = m_current_value;
}
- if (TRACE_DEC) logerror("Setting decrementer to %04x, PC=%04x\n", m_current_value, PC);
+ if (IS_ENABLED(TRACE_DEC)) logerror("Setting decrementer to %04x, PC=%04x\n", m_current_value, PC);
pulse_clock(1);
return;
}
@@ -1981,7 +1981,7 @@ void tms9995_device::mem_write()
// byte operations (e.g. when retrieving the index register)
if (m_word_access || !m_byteop) m_address &= 0xfffe;
- if (TRACE_MEM) logerror("write to onchip memory (single pass, address %04x, value=%04x)\n", m_address, m_current_value);
+ if (IS_ENABLED(TRACE_MEM)) logerror("write to onchip memory (single pass, address %04x, value=%04x)\n", m_address, m_current_value);
m_check_ready = false;
m_onchip_memory[m_address & 0x00ff] = (m_current_value >> 8) & 0xff;
if (m_word_access || !m_byteop)
@@ -2010,9 +2010,9 @@ void tms9995_device::mem_write()
else m_pass = 2;
m_check_hold = false;
- if (TRACE_ADDRESSBUS) logerror("set address bus %04x\n", address);
+ if (IS_ENABLED(TRACE_ADDRESSBUS)) logerror("set address bus %04x\n", address);
m_prgspace->set_address(address);
- if (TRACE_MEM) logerror("memory write byte %04x <- %02x\n", address, (m_current_value >> 8)&0xff);
+ if (IS_ENABLED(TRACE_MEM)) logerror("memory write byte %04x <- %02x\n", address, (m_current_value >> 8)&0xff);
m_prgspace->write_byte(address, (m_current_value >> 8)&0xff);
m_request_auto_wait_state = m_auto_wait;
pulse_clock(1);
@@ -2023,9 +2023,9 @@ void tms9995_device::mem_write()
break;
case 3:
// Set address + 1 (unless byte command)
- if (TRACE_ADDRESSBUS) logerror("set address bus %04x\n", m_address | 1);
+ if (IS_ENABLED(TRACE_ADDRESSBUS)) logerror("set address bus %04x\n", m_address | 1);
m_prgspace->set_address(m_address | 1);
- if (TRACE_MEM) logerror("memory write byte %04x <- %02x\n", m_address | 1, m_current_value & 0xff);
+ if (IS_ENABLED(TRACE_MEM)) logerror("memory write byte %04x <- %02x\n", m_address | 1, m_current_value & 0xff);
m_prgspace->write_byte(m_address | 1, m_current_value & 0xff);
m_request_auto_wait_state = m_auto_wait;
pulse_clock(1);
@@ -2066,7 +2066,7 @@ void tms9995_device::return_with_address()
m_index = m_caller_index;
MPC = m_caller_MPC; // will be increased on return
m_address = m_current_value + m_address_add;
- if (TRACE_DETAIL) logerror("+++ return from operand address derivation +++\n");
+ if (IS_ENABLED(TRACE_DETAIL)) logerror("+++ return from operand address derivation +++\n");
// no clock pulse
}
@@ -2080,7 +2080,7 @@ void tms9995_device::return_with_address_copy()
m_index = m_caller_index;
MPC = m_caller_MPC; // will be increased on return
m_address = m_address_saved;
- if (TRACE_DETAIL) logerror("+++ return from operand address derivation (auto inc) +++\n");
+ if (IS_ENABLED(TRACE_DETAIL)) logerror("+++ return from operand address derivation (auto inc) +++\n");
// no clock pulse
}
@@ -2121,7 +2121,7 @@ void tms9995_device::return_with_address_copy()
void tms9995_device::cru_output_operation()
{
- if (TRACE_CRU) logerror("CRU output operation, address %04x, value %d\n", m_cru_address, m_cru_value & 0x01);
+ if (IS_ENABLED(TRACE_CRU)) logerror("CRU output operation, address %04x, value %d\n", m_cru_address, m_cru_value & 0x01);
if (m_cru_address == 0x1fda)
{
@@ -2136,7 +2136,7 @@ void tms9995_device::cru_output_operation()
{
m_check_ready = false;
// FLAG2, FLAG3, and FLAG4 are read-only
- if (TRACE_CRU) logerror("set CRU address %04x to %d\n", m_cru_address, m_cru_value&1);
+ if (IS_ENABLED(TRACE_CRU)) logerror("set CRU address %04x to %d\n", m_cru_address, m_cru_value&1);
if ((m_cru_address != 0x1ee4) && (m_cru_address != 0x1ee6) && (m_cru_address != 0x1ee8))
m_flag[(m_cru_address>>1)&0x000f] = (m_cru_value & 0x01);
}
@@ -2193,7 +2193,7 @@ void tms9995_device::cru_input_operation()
// ........ ........ X....... ........
//
crubyte = m_cru->read_byte((m_cru_address >> 4)& CRUREADMASK);
- if (TRACE_DETAIL) logerror("Need to get next 8 bits (addresses %04x-%04x): %02x\n", (m_cru_address&0xfff0)+14, m_cru_address&0xfff0, crubyte);
+ if (IS_ENABLED(TRACE_DETAIL)) logerror("Need to get next 8 bits (addresses %04x-%04x): %02x\n", (m_cru_address&0xfff0)+14, m_cru_address&0xfff0, crubyte);
m_cru_read = crubyte << 15;
m_cru_bits_left = 8;
@@ -2205,7 +2205,7 @@ void tms9995_device::cru_input_operation()
m_cru_first_read = false;
m_pass = m_count;
}
- if (TRACE_DETAIL) logerror("adjusted value for shift: %06x\n", m_cru_read);
+ if (IS_ENABLED(TRACE_DETAIL)) logerror("adjusted value for shift: %06x\n", m_cru_read);
}
crubit = (m_cru_read & 0x8000);
@@ -2231,7 +2231,7 @@ void tms9995_device::cru_input_operation()
}
}
- if (TRACE_CRU) logerror("CRU input operation, address %04x, value %d\n", m_cru_address, (crubit & 0x8000)>>15);
+ if (IS_ENABLED(TRACE_CRU)) logerror("CRU input operation, address %04x, value %d\n", m_cru_address, (crubit & 0x8000)>>15);
m_cru_value |= crubit;
@@ -2261,11 +2261,11 @@ void tms9995_device::trigger_decrementer()
m_decrementer_value--;
if (m_decrementer_value==0)
{
- if (TRACE_DEC) logerror("decrementer reached 0\n");
+ if (IS_ENABLED(TRACE_DEC)) logerror("decrementer reached 0\n");
m_decrementer_value = m_starting_count_storage_register;
if (m_flag[1]==true)
{
- if (TRACE_DEC) logerror("decrementer flags interrupt\n");
+ if (IS_ENABLED(TRACE_DEC)) logerror("decrementer flags interrupt\n");
m_flag[3] = true;
m_int_decrementer = true;
}
@@ -2314,12 +2314,12 @@ void tms9995_device::operand_address_subprogram()
{
if (m_regnumber != 0)
{
- if (TRACE_DETAIL) logerror("indexed addressing\n");
+ if (IS_ENABLED(TRACE_DETAIL)) logerror("indexed addressing\n");
MPC = 16; // indexed
}
else
{
- if (TRACE_DETAIL) logerror("symbolic addressing\n");
+ if (IS_ENABLED(TRACE_DETAIL)) logerror("symbolic addressing\n");
m_address = PC;
PC = (PC + 2) & 0xfffe;
}
@@ -2329,7 +2329,7 @@ void tms9995_device::operand_address_subprogram()
m_mem_phase = 1;
m_address_add = 0;
MPC--; // will be increased in the mail loop
- if (TRACE_DETAIL) logerror("*** Operand address derivation; address=%04x; index=%d\n", m_address, MPC+1);
+ if (IS_ENABLED(TRACE_DETAIL)) logerror("*** Operand address derivation; address=%04x; index=%d\n", m_address, MPC+1);
}
/*
@@ -2471,7 +2471,7 @@ void tms9995_device::alu_add_s_sxc()
{
set_status_parity((uint8_t)(dest_new>>8));
}
- if (TRACE_STATUS) logerror("ST = %04x (val=%04x)\n", ST, m_current_value);
+ if (IS_ENABLED(TRACE_STATUS)) logerror("ST = %04x (val=%04x)\n", ST, m_current_value);
// No clock pulse (will be done by prefetch)
}
@@ -2518,7 +2518,7 @@ void tms9995_device::alu_blwp()
case 4:
PC = m_current_value & 0xfffe;
n = 0;
- if (TRACE_OP) logerror("Context switch complete; WP=%04x, PC=%04x, ST=%04x\n", WP, PC, ST);
+ if (IS_ENABLED(TRACE_OP)) logerror("Context switch complete; WP=%04x, PC=%04x, ST=%04x\n", WP, PC, ST);
break;
}
m_inst_state++;
@@ -2539,7 +2539,7 @@ void tms9995_device::alu_c()
set_status_parity((uint8_t)(m_source_value>>8));
}
compare_and_set_lae(m_source_value, m_current_value);
- if (TRACE_STATUS) logerror("ST = %04x (val1=%04x, val2=%04x)\n", ST, m_source_value, m_current_value);
+ if (IS_ENABLED(TRACE_STATUS)) logerror("ST = %04x (val1=%04x, val2=%04x)\n", ST, m_source_value, m_current_value);
}
/*
@@ -2550,12 +2550,12 @@ void tms9995_device::alu_ci()
// We have the register value in m_source_value, the register address in m_address_saved
// and the immediate value in m_current_value
compare_and_set_lae(m_source_value, m_current_value);
- if (TRACE_STATUS) logerror("ST = %04x (val1=%04x, val2=%04x)\n", ST, m_source_value, m_current_value);
+ if (IS_ENABLED(TRACE_STATUS)) logerror("ST = %04x (val1=%04x, val2=%04x)\n", ST, m_source_value, m_current_value);
}
void tms9995_device::alu_clr_seto()
{
- if (TRACE_OP) logerror("clr/seto: Setting values for address %04x\n", m_address);
+ if (IS_ENABLED(TRACE_OP)) logerror("clr/seto: Setting values for address %04x\n", m_address);
switch (m_command)
{
case CLR:
@@ -2764,14 +2764,14 @@ void tms9995_device::alu_external()
if (m_command == IDLE)
{
- if (TRACE_OP) logerror("Entering IDLE state\n");
+ if (IS_ENABLED(TRACE_OP)) logerror("Entering IDLE state\n");
m_idle_state = true;
}
if (m_command == RSET)
{
ST &= 0xfff0;
- if (TRACE_OP) logerror("RSET, new ST = %04x\n", ST);
+ if (IS_ENABLED(TRACE_OP)) logerror("RSET, new ST = %04x\n", ST);
}
if (!m_external_operation.isnull())
@@ -2813,7 +2813,7 @@ void tms9995_device::alu_f3()
compare_and_set_lae(m_current_value, 0);
}
}
- if (TRACE_STATUS) logerror("ST = %04x\n", ST);
+ if (IS_ENABLED(TRACE_STATUS)) logerror("ST = %04x\n", ST);
break;
}
m_inst_state++;
@@ -2849,7 +2849,7 @@ void tms9995_device::alu_imm_arithm()
m_current_value = (uint16_t)(dest_new & 0xffff);
compare_and_set_lae(m_current_value, 0);
m_address = m_address_saved;
- if (TRACE_STATUS) logerror("ST = %04x (val=%04x)\n", ST, m_current_value);
+ if (IS_ENABLED(TRACE_STATUS)) logerror("ST = %04x (val=%04x)\n", ST, m_current_value);
}
/*
@@ -2905,11 +2905,11 @@ void tms9995_device::alu_jump()
if (!cond)
{
- if (TRACE_OP) logerror("Jump condition false\n");
+ if (IS_ENABLED(TRACE_OP)) logerror("Jump condition false\n");
}
else
{
- if (TRACE_OP) logerror("Jump condition true\n");
+ if (IS_ENABLED(TRACE_OP)) logerror("Jump condition true\n");
PC = (PC + (displacement<<1)) & 0xfffe;
}
}
@@ -2929,7 +2929,7 @@ void tms9995_device::alu_ldcr()
case 1:
// We have read the byte or word into m_current_value.
compare_and_set_lae(m_current_value, 0);
- if (TRACE_STATUS) logerror("ST = %04x (val=%04x)\n", ST, m_current_value);
+ if (IS_ENABLED(TRACE_STATUS)) logerror("ST = %04x (val=%04x)\n", ST, m_current_value);
// Parity is computed from the complete byte, even when less than
// 8 bits are transferred (see [1]).
@@ -2961,7 +2961,7 @@ void tms9995_device::alu_li()
// The immediate value is still in m_current_value
m_address = m_address_saved;
compare_and_set_lae(m_current_value, 0);
- if (TRACE_STATUS) logerror("ST = %04x (val=%04x)\n", ST, m_current_value);
+ if (IS_ENABLED(TRACE_STATUS)) logerror("ST = %04x (val=%04x)\n", ST, m_current_value);
}
void tms9995_device::alu_limi_lwpi()
@@ -2970,13 +2970,13 @@ void tms9995_device::alu_limi_lwpi()
if (m_command == LIMI)
{
ST = (ST & 0xfff0) | (m_current_value & 0x000f);
- if (TRACE_OP) logerror("LIMI sets ST = %04x\n", ST);
+ if (IS_ENABLED(TRACE_OP)) logerror("LIMI sets ST = %04x\n", ST);
pulse_clock(1); // needs one more than LWPI
}
else
{
WP = m_current_value & 0xfffe;
- if (TRACE_OP) logerror("LWPI sets new WP = %04x\n", WP);
+ if (IS_ENABLED(TRACE_OP)) logerror("LWPI sets new WP = %04x\n", WP);
}
}
@@ -2989,13 +2989,13 @@ void tms9995_device::alu_lst_lwp()
if (m_command==LST)
{
ST = m_current_value;
- if (TRACE_OP) logerror("new ST = %04x\n", ST);
+ if (IS_ENABLED(TRACE_OP)) logerror("new ST = %04x\n", ST);
pulse_clock(1);
}
else
{
WP = m_current_value & 0xfffe;
- if (TRACE_OP) logerror("new WP = %04x\n", WP);
+ if (IS_ENABLED(TRACE_OP)) logerror("new WP = %04x\n", WP);
}
}
@@ -3013,7 +3013,7 @@ void tms9995_device::alu_mov()
set_status_parity((uint8_t)(m_current_value>>8));
}
compare_and_set_lae(m_current_value, 0);
- if (TRACE_STATUS) logerror("ST = %04x (val=%04x)\n", ST, m_current_value);
+ if (IS_ENABLED(TRACE_STATUS)) logerror("ST = %04x (val=%04x)\n", ST, m_current_value);
// No clock pulse, as next instruction is prefetch
}
@@ -3106,7 +3106,7 @@ void tms9995_device::alu_rtwp()
// Just for debugging purposes
m_servicing_interrupt = false;
- if (TRACE_OP) logerror("RTWP restored old context (WP=%04x, PC=%04x, ST=%04x)\n", WP, PC, ST);
+ if (IS_ENABLED(TRACE_OP)) logerror("RTWP restored old context (WP=%04x, PC=%04x, ST=%04x)\n", WP, PC, ST);
break;
}
m_inst_state++;
@@ -3159,7 +3159,7 @@ void tms9995_device::alu_shift()
}
else
{
- if (TRACE_DETAIL) logerror("Shift operation gets count from R0\n");
+ if (IS_ENABLED(TRACE_DETAIL)) logerror("Shift operation gets count from R0\n");
}
pulse_clock(1);
pulse_clock(1);
@@ -3204,7 +3204,7 @@ void tms9995_device::alu_shift()
set_status_bit(ST_OV, overflow);
compare_and_set_lae(m_current_value, 0);
m_address = m_address_saved; // Register address
- if (TRACE_STATUS) logerror("ST = %04x (val=%04x)\n", ST, m_current_value);
+ if (IS_ENABLED(TRACE_STATUS)) logerror("ST = %04x (val=%04x)\n", ST, m_current_value);
break;
}
m_inst_state++;
@@ -3300,7 +3300,7 @@ void tms9995_device::alu_single_arithm()
m_current_value = dest_new & 0xffff;
compare_and_set_lae(m_current_value, 0);
- if (TRACE_STATUS) logerror("ST = %04x (val=%04x)\n", ST, m_current_value);
+ if (IS_ENABLED(TRACE_STATUS)) logerror("ST = %04x (val=%04x)\n", ST, m_current_value);
// No clock pulse, as next instruction is prefetch
}
@@ -3338,7 +3338,7 @@ void tms9995_device::alu_stcr()
m_current_value <<= 8;
}
else n += 8;
- if (TRACE_STATUS) logerror("ST = %04x (val=%04x)\n", ST, m_current_value);
+ if (IS_ENABLED(TRACE_STATUS)) logerror("ST = %04x (val=%04x)\n", ST, m_current_value);
break;
}
m_inst_state++;
@@ -3378,7 +3378,7 @@ void tms9995_device::alu_tb()
break;
case 2:
set_status_bit(ST_EQ, m_cru_value!=0);
- if (TRACE_STATUS) logerror("ST = %04x\n", ST);
+ if (IS_ENABLED(TRACE_STATUS)) logerror("ST = %04x\n", ST);
break;
}
m_inst_state++;
@@ -3461,7 +3461,7 @@ void tms9995_device::alu_int()
case 0:
PC = (PC - 2) & 0xfffe;
m_address_saved = m_address;
- if (TRACE_INTD) logerror("interrupt service (0): Prepare to read vector\n");
+ if (IS_ENABLED(TRACE_INTD)) logerror("interrupt service (0): Prepare to read vector\n");
break;
case 1:
pulse = 2; // two cycles (with the one at the end)
@@ -3469,30 +3469,30 @@ void tms9995_device::alu_int()
WP = m_current_value & 0xfffe; // new WP
m_current_value = ST;
m_address = (WP + 30)&0xfffe;
- if (TRACE_INTD) logerror("interrupt service (1): Read new WP = %04x, save ST to %04x\n", WP, m_address);
+ if (IS_ENABLED(TRACE_INTD)) logerror("interrupt service (1): Read new WP = %04x, save ST to %04x\n", WP, m_address);
break;
case 2:
m_address = (WP + 28)&0xfffe;
m_current_value = PC;
- if (TRACE_INTD) logerror("interrupt service (2): Save PC to %04x\n", m_address);
+ if (IS_ENABLED(TRACE_INTD)) logerror("interrupt service (2): Save PC to %04x\n", m_address);
break;
case 3:
m_address = (WP + 26)&0xfffe;
m_current_value = m_source_value; // old WP
- if (TRACE_INTD) logerror("interrupt service (3): Save WP to %04x\n", m_address);
+ if (IS_ENABLED(TRACE_INTD)) logerror("interrupt service (3): Save WP to %04x\n", m_address);
break;
case 4:
m_address = (m_address_saved + 2) & 0xfffe;
- if (TRACE_INTD) logerror("interrupt service (4): Read PC from %04x\n", m_address);
+ if (IS_ENABLED(TRACE_INTD)) logerror("interrupt service (4): Read PC from %04x\n", m_address);
break;
case 5:
PC = m_current_value & 0xfffe;
ST = (ST & 0xfe00) | m_intmask;
- if (TRACE_INTD) logerror("interrupt service (5): Context switch complete; WP=%04x, PC=%04x, ST=%04x\n", WP, PC, ST);
+ if (IS_ENABLED(TRACE_INTD)) logerror("interrupt service (5): Context switch complete; WP=%04x, PC=%04x, ST=%04x\n", WP, PC, ST);
if (((m_int_pending & PENDING_MID)!=0) && m_nmi_active)
{
- if (TRACE_INTD) logerror("interrupt service (6): NMI active after context switch\n");
+ if (IS_ENABLED(TRACE_INTD)) logerror("interrupt service (6): NMI active after context switch\n");
m_int_pending &= ~PENDING_MID;
m_address = 0xfffc;
m_intmask = 0;
@@ -3502,7 +3502,7 @@ void tms9995_device::alu_int()
{
if (m_from_reset)
{
- if (TRACE_INTD) logerror("interrupt service (6): RESET completed\n");
+ if (IS_ENABLED(TRACE_INTD)) logerror("interrupt service (6): RESET completed\n");
// We came from the RESET interrupt
m_from_reset = false;
ST &= 0x01ff;
diff --git a/src/devices/imagedev/flopdrv.cpp b/src/devices/imagedev/flopdrv.cpp
index ad0884d3379..cab64aebe6c 100644
--- a/src/devices/imagedev/flopdrv.cpp
+++ b/src/devices/imagedev/flopdrv.cpp
@@ -355,7 +355,7 @@ void legacy_floppy_image_device::floppy_drive_read_sector_data(int side, int ind
floppy_read_indexed_sector(m_floppy, side, m_track, index1, 0, ptr, length);
- if (LOG_FLOPPY)
+ if (IS_ENABLED(LOG_FLOPPY))
log_readwrite("sector_read", side, m_track, index1, (const char *)ptr, length);
}
@@ -368,7 +368,7 @@ void legacy_floppy_image_device::floppy_drive_write_sector_data(int side, int in
if (!m_floppy)
return;
- if (LOG_FLOPPY)
+ if (IS_ENABLED(LOG_FLOPPY))
log_readwrite("sector_write", side, m_track, index1, (const char *)ptr, length);
floppy_write_indexed_sector(m_floppy, side, m_track, index1, 0, ptr, length, ddam);
diff --git a/src/devices/imagedev/floppy.cpp b/src/devices/imagedev/floppy.cpp
index fbd508c579a..99d77a7388c 100644
--- a/src/devices/imagedev/floppy.cpp
+++ b/src/devices/imagedev/floppy.cpp
@@ -634,7 +634,7 @@ void floppy_image_device::stp_w(int state)
}
if(ocyl != cyl)
{
- if (TRACE_STEP) logerror("%s: track %d\n", tag(), cyl);
+ if (IS_ENABLED(TRACE_STEP)) logerror("%s: track %d\n", tag(), cyl);
// Do we want a stepper sound?
// We plan for 5 zones with possibly specific sounds
if (m_make_sound) m_sound_out->step(cyl*5/tracks);
@@ -1180,7 +1180,7 @@ void floppy_sound_device::step(int zone)
// Changing the pitch does not always sound convincing
if (!PITCH_SEEK_SAMPLES) m_seek_pitch = 1;
- if (TRACE_AUDIO) logerror("Seek sample = %d, pitch = %f\n", m_seek_playback_sample, m_seek_pitch);
+ if (IS_ENABLED(TRACE_AUDIO)) logerror("Seek sample = %d, pitch = %f\n", m_seek_playback_sample, m_seek_pitch);
// Set the timeout for the seek sound. When it expires,
// we assume that the seek process is over, and we'll play the
diff --git a/src/devices/imagedev/mfmhd.cpp b/src/devices/imagedev/mfmhd.cpp
index 312c597a31c..47a3dbc6125 100644
--- a/src/devices/imagedev/mfmhd.cpp
+++ b/src/devices/imagedev/mfmhd.cpp
@@ -444,12 +444,12 @@ image_init_result mfm_harddisk_device::call_load()
return image_init_result::FAIL;
}
- if (TRACE_CONFIG) logerror("CHD metadata: %s\n", metadata.c_str());
+ if (IS_ENABLED(TRACE_CONFIG)) logerror("CHD metadata: %s\n", metadata.c_str());
// Parse the metadata
mfmhd_layout_params param;
param.encoding = m_encoding;
- if (TRACE_CONFIG) logerror("Set encoding to %d\n", m_encoding);
+ if (IS_ENABLED(TRACE_CONFIG)) logerror("Set encoding to %d\n", m_encoding);
if (sscanf(metadata.c_str(), HARD_DISK_METADATA_FORMAT, &param.cylinders, &param.heads, &param.sectors_per_track, &param.sector_size) != 4)
{
@@ -457,7 +457,7 @@ image_init_result mfm_harddisk_device::call_load()
return image_init_result::FAIL;
}
- if (TRACE_CONFIG) logerror("CHD image has geometry cyl=%d, head=%d, sect=%d, size=%d\n", param.cylinders, param.heads, param.sectors_per_track, param.sector_size);
+ if (IS_ENABLED(TRACE_CONFIG)) logerror("CHD image has geometry cyl=%d, head=%d, sect=%d, size=%d\n", param.cylinders, param.heads, param.sectors_per_track, param.sector_size);
if (m_max_cylinders != 0 && (param.cylinders != m_max_cylinders || param.heads != m_max_heads))
{
@@ -483,11 +483,11 @@ image_init_result mfm_harddisk_device::call_load()
if (!param.sane_rec())
{
- if (TRACE_CONFIG) logerror("Sector arrangement/recording specs have invalid values, applying defaults\n");
+ if (IS_ENABLED(TRACE_CONFIG)) logerror("Sector arrangement/recording specs have invalid values, applying defaults\n");
param.reset_rec();
}
else
- if (TRACE_CONFIG) logerror("MFM HD rec specs: interleave=%d, cylskew=%d, headskew=%d, wpcom=%d, rwc=%d\n",
+ if (IS_ENABLED(TRACE_CONFIG)) logerror("MFM HD rec specs: interleave=%d, cylskew=%d, headskew=%d, wpcom=%d, rwc=%d\n",
param.interleave, param.cylskew, param.headskew, param.write_precomp_cylinder, param.reduced_wcurr_cylinder);
state = chdfile->read_metadata(MFM_HARD_DISK_METADATA_TAG, 1, metadata);
@@ -502,11 +502,11 @@ image_init_result mfm_harddisk_device::call_load()
if (!param.sane_gap())
{
- if (TRACE_CONFIG) logerror("MFM HD gap specs have invalid values, applying defaults\n");
+ if (IS_ENABLED(TRACE_CONFIG)) logerror("MFM HD gap specs have invalid values, applying defaults\n");
param.reset_gap();
}
else
- if (TRACE_CONFIG) logerror("MFM HD gap specs: gap1=%d, gap2=%d, gap3=%d, sync=%d, headerlen=%d, ecctype=%d\n",
+ if (IS_ENABLED(TRACE_CONFIG)) logerror("MFM HD gap specs: gap1=%d, gap2=%d, gap3=%d, sync=%d, headerlen=%d, ecctype=%d\n",
param.gap1, param.gap2, param.gap3, param.sync, param.headerlen, param.ecctype);
m_format->set_layout_params(param);
@@ -527,7 +527,7 @@ image_init_result mfm_harddisk_device::call_load()
float realmax = (m_maxseek_time==0)? (m_actual_cylinders * 0.2) : (m_maxseek_time * 0.8);
float settle_us = ((m_actual_cylinders-1.0) * realnext - realmax) / (m_actual_cylinders-2.0) * 1000;
float step_us = realnext * 1000 - settle_us;
- if (TRACE_CONFIG) logerror("Calculated settle time: %0.2f ms, step: %d us\n", settle_us/1000, (int)step_us);
+ if (IS_ENABLED(TRACE_CONFIG)) logerror("Calculated settle time: %0.2f ms, step: %d us\n", settle_us/1000, (int)step_us);
m_settle_time = attotime::from_usec((int)settle_us);
m_step_time = attotime::from_usec((int)step_us);
@@ -612,7 +612,7 @@ attotime mfm_harddisk_device::track_end_time()
if (!m_revolution_start_time.is_never())
{
endtime = m_revolution_start_time + nexttime;
- if (TRACE_TIMING) logerror("Track start time = %s, end time = %s\n", tts(m_revolution_start_time).c_str(), tts(endtime).c_str());
+ if (IS_ENABLED(TRACE_TIMING)) logerror("Track start time = %s, end time = %s\n", tts(m_revolution_start_time).c_str(), tts(endtime).c_str());
}
return endtime;
}
@@ -654,7 +654,7 @@ void mfm_harddisk_device::device_timer(emu_timer &timer, device_timer_id id, int
// Start the settle timer
m_step_phase = STEP_SETTLE;
m_seek_timer->adjust(m_settle_time);
- if (TRACE_STEPS && TRACE_DETAIL) logerror("Arrived at target cylinder %d, settling ...\n", m_current_cylinder);
+ if (IS_ENABLED(TRACE_STEPS && TRACE_DETAIL)) logerror("Arrived at target cylinder %d, settling ...\n", m_current_cylinder);
}
else
{
@@ -672,12 +672,12 @@ void mfm_harddisk_device::device_timer(emu_timer &timer, device_timer_id id, int
{
m_ready = true;
m_recalibrated = true;
- if (TRACE_STATE) logerror("Spinup complete, drive recalibrated and positioned at cylinder %d; drive is READY\n", m_current_cylinder);
+ if (IS_ENABLED(TRACE_STATE)) logerror("Spinup complete, drive recalibrated and positioned at cylinder %d; drive is READY\n", m_current_cylinder);
if (!m_ready_cb.isnull()) m_ready_cb(this, ASSERT_LINE);
}
else
{
- if (TRACE_SIGNALS) logerror("Settling done at cylinder %d, seek complete\n", m_current_cylinder);
+ if (IS_ENABLED(TRACE_SIGNALS)) logerror("Settling done at cylinder %d, seek complete\n", m_current_cylinder);
}
m_seek_complete = true;
if (!m_seek_complete_cb.isnull()) m_seek_complete_cb(this, ASSERT_LINE);
@@ -690,7 +690,7 @@ void mfm_harddisk_device::device_timer(emu_timer &timer, device_timer_id id, int
void mfm_harddisk_device::recalibrate()
{
- if (TRACE_STEPS) logerror("Recalibrate to track 0\n");
+ if (IS_ENABLED(TRACE_STEPS)) logerror("Recalibrate to track 0\n");
direction_in_w(CLEAR_LINE);
while (-m_track_delta < m_phys_cylinders)
{
@@ -703,13 +703,13 @@ void mfm_harddisk_device::head_move()
{
int steps = m_track_delta;
if (steps < 0) steps = -steps;
- if (TRACE_STEPS) logerror("Moving head by %d step(s) %s\n", steps, (m_track_delta<0)? "outward" : "inward");
+ if (IS_ENABLED(TRACE_STEPS)) logerror("Moving head by %d step(s) %s\n", steps, (m_track_delta<0)? "outward" : "inward");
// We simulate the head movement by pausing for n*step_time with n being the cylinder delta
m_step_phase = STEP_MOVING;
m_seek_timer->adjust(m_step_time * steps);
- if (TRACE_TIMING) logerror("Head movement takes %s time\n", tts(m_step_time * steps).c_str());
+ if (IS_ENABLED(TRACE_TIMING)) logerror("Head movement takes %s time\n", tts(m_step_time * steps).c_str());
// We pretend that we already arrived
// TODO: Check auto truncation?
m_current_cylinder += m_track_delta;
@@ -721,7 +721,7 @@ void mfm_harddisk_device::head_move()
void mfm_harddisk_device::direction_in_w(line_state line)
{
m_seek_inward = (line == ASSERT_LINE);
- if (TRACE_STEPS && TRACE_DETAIL) logerror("Setting seek direction %s\n", m_seek_inward? "inward" : "outward");
+ if (IS_ENABLED(TRACE_STEPS && TRACE_DETAIL)) logerror("Setting seek direction %s\n", m_seek_inward? "inward" : "outward");
}
/*
@@ -772,10 +772,10 @@ void mfm_harddisk_device::step_w(line_state line)
// Counter will be adjusted according to the direction (+-1)
m_track_delta += (m_seek_inward)? +1 : -1;
- if (TRACE_STEPS && TRACE_DETAIL) logerror("Got seek pulse; track delta %d\n", m_track_delta);
+ if (IS_ENABLED(TRACE_STEPS && TRACE_DETAIL)) logerror("Got seek pulse; track delta %d\n", m_track_delta);
if (m_track_delta < -m_phys_cylinders || m_track_delta > m_phys_cylinders)
{
- if (TRACE_STEPS) logerror("Excessive step pulses - doing auto-truncation\n");
+ if (IS_ENABLED(TRACE_STEPS)) logerror("Excessive step pulses - doing auto-truncation\n");
m_autotruncation = true;
}
m_seek_timer->adjust(attotime::from_usec(250)); // Start step collect timer
@@ -808,7 +808,7 @@ bool mfm_harddisk_device::find_position(attotime &from_when, const attotime &lim
// Reached the end
if (bytepos >= m_trackimage_size)
{
- if (TRACE_TIMING) logerror("Reached end: rev_start = %s, live = %s\n", tts(m_revolution_start_time).c_str(), tts(from_when).c_str());
+ if (IS_ENABLED(TRACE_TIMING)) logerror("Reached end: rev_start = %s, live = %s\n", tts(m_revolution_start_time).c_str(), tts(from_when).c_str());
m_revolution_start_time += m_rev_time;
cell = (from_when - m_revolution_start_time).as_ticks(freq);
bytepos = cell / 16;
@@ -816,7 +816,7 @@ bool mfm_harddisk_device::find_position(attotime &from_when, const attotime &lim
if (bytepos < 0)
{
- if (TRACE_TIMING) logerror("Negative cell number: rev_start = %s, live = %s\n", tts(m_revolution_start_time).c_str(), tts(from_when).c_str());
+ if (IS_ENABLED(TRACE_TIMING)) logerror("Negative cell number: rev_start = %s, live = %s\n", tts(m_revolution_start_time).c_str(), tts(from_when).c_str());
bytepos = 0;
}
bit = cell % 16;
@@ -853,12 +853,12 @@ bool mfm_harddisk_device::read(attotime &from_when, const attotime &limit, uint1
{
// We will deliver a single bit
cdata = ((track[bytepos] << bitpos) & 0x8000) >> 15;
- if (TRACE_BITS) logerror("Reading (c=%d,h=%d,bit=%d) at cell %d [%s] = %d\n", m_current_cylinder, m_current_head, bitpos, ((bytepos<<4) + bitpos), tts(fw).c_str(), cdata);
+ if (IS_ENABLED(TRACE_BITS)) logerror("Reading (c=%d,h=%d,bit=%d) at cell %d [%s] = %d\n", m_current_cylinder, m_current_head, bitpos, ((bytepos<<4) + bitpos), tts(fw).c_str(), cdata);
}
else
{
// We will deliver a whole byte
- if (TRACE_READ) logerror("Reading (c=%d,h=%d) at position %d\n", m_current_cylinder, m_current_head, bytepos);
+ if (IS_ENABLED(TRACE_READ)) logerror("Reading (c=%d,h=%d) at position %d\n", m_current_cylinder, m_current_head, bytepos);
cdata = track[bytepos];
}
return false;
@@ -911,7 +911,7 @@ bool mfm_harddisk_device::write(attotime &from_when, const attotime &limit, uint
if (wpcom && (params->write_precomp_cylinder == -1 || m_current_cylinder < params->write_precomp_cylinder))
params->write_precomp_cylinder = m_current_cylinder;
- if (TRACE_WRITE) if ((bitpos&0x0f)==0) logerror("Wrote data=%04x (c=%d,h=%d) at position %04x, wpcom=%d, rwc=%d\n", track[bytepos], m_current_cylinder, m_current_head, bytepos, wpcom, reduced_wc);
+ if (IS_ENABLED(TRACE_WRITE)) if ((bitpos&0x0f)==0) logerror("Wrote data=%04x (c=%d,h=%d) at position %04x, wpcom=%d, rwc=%d\n", track[bytepos], m_current_cylinder, m_current_head, bytepos, wpcom, reduced_wc);
return false;
}
@@ -999,7 +999,7 @@ mfmhd_trackimage_cache::mfmhd_trackimage_cache(running_machine &machine):
mfmhd_trackimage_cache::~mfmhd_trackimage_cache()
{
mfmhd_trackimage* current = m_tracks;
- if (TRACE_CACHE) m_machine.logerror("[%s:cache] MFM HD cache destroy\n", m_mfmhd->tag());
+ if (IS_ENABLED(TRACE_CACHE)) m_machine.logerror("[%s:cache] MFM HD cache destroy\n", m_mfmhd->tag());
while (current != nullptr)
{
@@ -1030,12 +1030,12 @@ void mfmhd_trackimage_cache::write_back_one()
void mfmhd_trackimage_cache::cleanup()
{
mfmhd_trackimage* current = m_tracks;
- if (TRACE_CACHE) m_machine.logerror("[%s:cache] MFM HD cache cleanup\n", m_mfmhd->tag());
+ if (IS_ENABLED(TRACE_CACHE)) m_machine.logerror("[%s:cache] MFM HD cache cleanup\n", m_mfmhd->tag());
// Still dirty?
while (current != nullptr)
{
- if (TRACE_CACHE) m_machine.logerror("[%s:cache] MFM HD cache: evict line cylinder=%d head=%d\n", m_mfmhd->tag(), current->cylinder, current->head);
+ if (IS_ENABLED(TRACE_CACHE)) m_machine.logerror("[%s:cache] MFM HD cache: evict line cylinder=%d head=%d\n", m_mfmhd->tag(), current->cylinder, current->head);
if (current->dirty)
{
m_mfmhd->write_track(current->encdata, current->cylinder, current->head);
@@ -1062,7 +1062,7 @@ const char *encnames[] = { "MFM_BITS","MFM_BYTE","SEPARATE","SSIMPLE " };
*/
void mfmhd_trackimage_cache::init(mfm_harddisk_device* mfmhd, int tracksize, int trackslots)
{
- if (TRACE_CACHE) m_machine.logerror("[%s:cache] MFM HD cache init; cache size is %d tracks\n", mfmhd->tag(), trackslots);
+ if (IS_ENABLED(TRACE_CACHE)) m_machine.logerror("[%s:cache] MFM HD cache init; cache size is %d tracks\n", mfmhd->tag(), trackslots);
chd_error state;
@@ -1078,7 +1078,7 @@ void mfmhd_trackimage_cache::init(mfm_harddisk_device* mfmhd, int tracksize, int
while (track < trackslots)
{
- if (TRACE_CACHE && TRACE_DETAIL) m_machine.logerror("[%s:cache] MFM HD allocate cache slot\n", mfmhd->tag());
+ if (IS_ENABLED(TRACE_CACHE && TRACE_DETAIL)) m_machine.logerror("[%s:cache] MFM HD allocate cache slot\n", mfmhd->tag());
previous = current;
current = global_alloc(mfmhd_trackimage);
current->encdata = global_alloc_array(uint16_t, tracksize);
@@ -1157,7 +1157,7 @@ uint16_t* mfmhd_trackimage_cache::get_trackimage(int cylinder, int head)
// previous points to the second to last element
current = previous->next;
- if (TRACE_CACHE) m_machine.logerror("[%s:cache] evict line (c=%d,h=%d)\n", m_mfmhd->tag(), current->cylinder, current->head);
+ if (IS_ENABLED(TRACE_CACHE)) m_machine.logerror("[%s:cache] evict line (c=%d,h=%d)\n", m_mfmhd->tag(), current->cylinder, current->head);
if (current->dirty)
{
diff --git a/src/devices/machine/laserdsc.cpp b/src/devices/machine/laserdsc.cpp
index badbd395354..f23c8230dc0 100644
--- a/src/devices/machine/laserdsc.cpp
+++ b/src/devices/machine/laserdsc.cpp
@@ -497,7 +497,7 @@ void laserdisc_device::set_slider_speed(int32_t tracks_per_vsync)
else
m_attospertrack = -(vsyncperiod / -tracks_per_vsync).as_attoseconds();
- if (LOG_SLIDER)
+ if (IS_ENABLED(LOG_SLIDER))
printf("Slider speed = %d\n", tracks_per_vsync);
}
@@ -514,7 +514,7 @@ void laserdisc_device::advance_slider(int32_t numtracks)
// then update the track position
add_and_clamp_track(numtracks);
- if (LOG_SLIDER)
+ if (IS_ENABLED(LOG_SLIDER))
printf("Advance by %d\n", numtracks);
}
diff --git a/src/devices/sound/cem3394.cpp b/src/devices/sound/cem3394.cpp
index 4e264f5be1b..555369cf605 100644
--- a/src/devices/sound/cem3394.cpp
+++ b/src/devices/sound/cem3394.cpp
@@ -452,7 +452,7 @@ void cem3394_device::set_voltage(int input, double voltage)
else
{
temp = voltage * 0.5;
- if (LIMIT_WIDTH)
+ if (IS_ENABLED(LIMIT_WIDTH))
temp = MINIMUM_WIDTH + (MAXIMUM_WIDTH - MINIMUM_WIDTH) * temp;
m_pulse_width = (uint32_t)(temp * FRACTION_ONE_D);
m_wave_select |= WAVE_PULSE;
diff --git a/src/devices/sound/votrax.cpp b/src/devices/sound/votrax.cpp
index 505ccd3d0a6..2bbe34b4415 100644
--- a/src/devices/sound/votrax.cpp
+++ b/src/devices/sound/votrax.cpp
@@ -508,27 +508,27 @@ void votrax_sc01_device::sound_stream_update(sound_stream &stream, stream_sample
uint8_t noise_out_digital = 0;
for (int curclock = 0; curclock < half_clocks_per_sample; curclock++)
{
-if (LOG_TIMING | LOG_LOWPARAM | LOG_GLOTTAL | LOG_TRANSITION)
+if (IS_ENABLED(LOG_TIMING | LOG_LOWPARAM | LOG_GLOTTAL | LOG_TRANSITION))
{
if (m_counter_34 % 32 == 0 && m_master_clock == 0)
{
- if (LOG_TIMING)
+ if (IS_ENABLED(LOG_TIMING))
osd_printf_debug("MCLK C034 L070 L072 BET1 P1 P2 PHI1 PHI2 PH1' PH2' SUBC C088 C084 L092 IIRQ ");
- if (LOG_LOWPARAM)
+ if (IS_ENABLED(LOG_LOWPARAM))
osd_printf_debug("F132 F114 F112 F142 L080 ");
- if (LOG_GLOTTAL)
+ if (IS_ENABLED(LOG_GLOTTAL))
osd_printf_debug("C220 C222 C224 C234 C236 FGAT GLSY ");
- if (LOG_TRANSITION)
+ if (IS_ENABLED(LOG_TRANSITION))
osd_printf_debug("0625 C046 L046 A0-2 L168 L170 FC VA FA F1 F2 F3 F2Q ");
osd_printf_debug("\n");
}
- if (LOG_TIMING)
+ if (IS_ENABLED(LOG_TIMING))
osd_printf_debug("%4X %4X %4X %4X %4X %4X %4X %4X %4X %4X %4X %4X %4X %4X %4X %4X ", m_master_clock, m_counter_34, m_latch_70, m_latch_72, m_beta1, m_p1, m_p2, m_phi1, m_phi2, m_phi1_20, m_phi2_20, m_subphoneme_count, m_clock_88, m_counter_84, m_latch_92, m_internal_request);
- if (LOG_LOWPARAM)
+ if (IS_ENABLED(LOG_LOWPARAM))
osd_printf_debug("%d %d %d %d %d ", m_srff_132, m_srff_114, m_srff_112, m_srff_142, m_latch_80);
- if (LOG_GLOTTAL)
+ if (IS_ENABLED(LOG_GLOTTAL))
osd_printf_debug("%4X %4X %4X %4X %4X %4X %4X ", m_counter_220, m_counter_222, m_counter_224, m_counter_234, m_counter_236, m_fgate, m_glottal_sync);
- if (LOG_TRANSITION)
+ if (IS_ENABLED(LOG_TRANSITION))
osd_printf_debug("%4X %4X %4X %4X %4X %4X %4X %4X %4X %4X %4X %4X %4X ", m_0625_clock, m_counter_46, m_latch_46, m_latch_72 & 7, m_latch_168, m_latch_170, m_fc, m_va, m_fa, m_f1, m_f2, m_f3, m_f2q);
osd_printf_debug("\n");
}
@@ -771,7 +771,7 @@ osd_printf_debug("[PH=%02X]\n", m_latch_80);
}
// counter 222 is always enabled
- if (1)
+ if (IS_ENABLED(1))
{
// if counter 220's TC is 1, do a load instead of a count
if (counter_220_tc)
@@ -781,7 +781,7 @@ osd_printf_debug("[PH=%02X]\n", m_latch_80);
}
// counter 236 is always enabled
- if (1)
+ if (IS_ENABLED(1))
{
m_counter_236 = (m_counter_236 + 1) & 0xf;
diff --git a/src/devices/video/poly.h b/src/devices/video/poly.h
index d67e570826f..69048a3869f 100644
--- a/src/devices/video/poly.h
+++ b/src/devices/video/poly.h
@@ -450,7 +450,7 @@ void poly_manager<_BaseType, _ObjectData, _MaxParams, _MaxPolys>::wait(const cha
osd_ticks_t time;
// remember the start time if we're logging
- if (LOG_WAITS)
+ if (IS_ENABLED(LOG_WAITS))
time = get_profile_ticks();
// wait for all pending work items to complete
@@ -463,7 +463,7 @@ void poly_manager<_BaseType, _ObjectData, _MaxParams, _MaxPolys>::wait(const cha
work_item_callback(&m_unit[unitnum], 0);
// log any long waits
- if (LOG_WAITS)
+ if (IS_ENABLED(LOG_WAITS))
{
time = get_profile_ticks() - time;
if (time > LOG_WAIT_THRESHOLD)
diff --git a/src/frontend/mame/ui/filecreate.cpp b/src/frontend/mame/ui/filecreate.cpp
index a1540e403a5..9cb825cd949 100644
--- a/src/frontend/mame/ui/filecreate.cpp
+++ b/src/frontend/mame/ui/filecreate.cpp
@@ -155,7 +155,7 @@ void menu_file_create::custom_render(void *selectedref, float top, float bottom,
void menu_file_create::populate()
{
std::string buffer;
- const image_device_format *format;
+ const image_device_format *format = nullptr;
const std::string *new_image_name;
// append the "New Image Name" item
@@ -171,8 +171,8 @@ void menu_file_create::populate()
item_append(_("New Image Name:"), *new_image_name, 0, ITEMREF_NEW_IMAGE_NAME);
// do we support multiple formats?
- if (ENABLE_FORMATS) format = m_image->formatlist().front().get();
- if (ENABLE_FORMATS && (format != nullptr))
+ if (IS_ENABLED(ENABLE_FORMATS)) format = m_image->formatlist().front().get();
+ if (IS_ENABLED(ENABLE_FORMATS) && (format != nullptr))
{
item_append(_("Image Format:"), m_current_format->description(), 0, ITEMREF_FORMAT);
m_current_format = format;
diff --git a/src/lib/formats/cassimg.cpp b/src/lib/formats/cassimg.cpp
index 87636b81349..d711aa01770 100644
--- a/src/lib/formats/cassimg.cpp
+++ b/src/lib/formats/cassimg.cpp
@@ -509,7 +509,7 @@ cassette_image::error cassette_put_samples(cassette_image *cassette, int channel
cassette->sample_count = ranges.sample_last + 1;
cassette->flags |= CASSETTE_FLAG_DIRTY;
- if (LOG_PUT_SAMPLES)
+ if (IS_ENABLED(LOG_PUT_SAMPLES))
{
LOG_FORMATS("cassette_put_samples(): Putting samples TIME=[%2.6g..%2.6g] INDEX=[%i..%i]\n",
time_index, time_index + sample_period,
diff --git a/src/lib/formats/fdi_dsk.cpp b/src/lib/formats/fdi_dsk.cpp
index c703f29cc69..11036e40e51 100644
--- a/src/lib/formats/fdi_dsk.cpp
+++ b/src/lib/formats/fdi_dsk.cpp
@@ -241,7 +241,7 @@ FLOPPY_CONSTRUCT( fdi_dsk_construct )
tag->tracks = pick_integer_be(header.ltrack, 0, 2) + 1;
tag->heads = header.lhead + 1;
- if (LOG)
+ if (IS_ENABLED(LOG))
{
LOG_FORMATS("FDI creator: %s\n", header.creator);
LOG_FORMATS("FDI comment: %s\n", header.comment);
@@ -264,7 +264,7 @@ FLOPPY_CONSTRUCT( fdi_dsk_construct )
uint8_t type = header.track[track].type;
int size = header.track[track].size * 256;
- if (LOG) LOG_FORMATS("FDI track %d type %02x size %d offset %d\n", track, type, size, offset);
+ if (IS_ENABLED(LOG)) LOG_FORMATS("FDI track %d type %02x size %d offset %d\n", track, type, size, offset);
tag->track_offset[track] = offset;
tag->track_type[track] = type;
diff --git a/src/lib/util/corefile.cpp b/src/lib/util/corefile.cpp
index 264d80f4113..6272ea120ad 100644
--- a/src/lib/util/corefile.cpp
+++ b/src/lib/util/corefile.cpp
@@ -663,7 +663,7 @@ bool core_in_memory_file::eof() const
{
// check for buffered chars
if (has_putback())
- return 0;
+ return false;
// if the offset == length, we're at EOF
return (m_offset >= m_length);
diff --git a/src/lib/util/jedparse.cpp b/src/lib/util/jedparse.cpp
index c2c9a139a6a..dc7c4ac4706 100644
--- a/src/lib/util/jedparse.cpp
+++ b/src/lib/util/jedparse.cpp
@@ -137,7 +137,7 @@ static void process_field(jed_data *data, const uint8_t *cursrc, const uint8_t *
/* default fuse state (0 or 1) */
case 'F':
cursrc++;
- if (LOG_PARSE) printf("F%c\n", *cursrc);
+ if (IS_ENABLED(LOG_PARSE)) printf("F%c\n", *cursrc);
if (*cursrc == '0')
memset(data->fusemap, 0x00, sizeof(data->fusemap));
else
@@ -152,14 +152,14 @@ static void process_field(jed_data *data, const uint8_t *cursrc, const uint8_t *
/* read the fuse number */
cursrc++;
curfuse = suck_number(&cursrc);
- if (LOG_PARSE) printf("L%u\n", curfuse);
+ if (IS_ENABLED(LOG_PARSE)) printf("L%u\n", curfuse);
/* read digits, skipping delimiters */
for ( ; cursrc < srcend; cursrc++)
if (*cursrc == '0' || *cursrc == '1')
{
jed_set_fuse(data, curfuse, *cursrc - '0');
- if (LOG_PARSE) printf(" fuse %u = %d\n", curfuse, 0);
+ if (IS_ENABLED(LOG_PARSE)) printf(" fuse %u = %d\n", curfuse, 0);
if (curfuse >= data->numfuses)
data->numfuses = curfuse + 1;
curfuse++;
diff --git a/src/lib/util/plaparse.cpp b/src/lib/util/plaparse.cpp
index d1e7c679f97..518089a8452 100644
--- a/src/lib/util/plaparse.cpp
+++ b/src/lib/util/plaparse.cpp
@@ -113,14 +113,14 @@ static bool process_terms(jed_data *data, const uint8_t **src, const uint8_t *sr
jed_set_fuse(data, data->numfuses++, 0);
jed_set_fuse(data, data->numfuses++, 1);
- if (LOG_PARSE) printf("01");
+ if (IS_ENABLED(LOG_PARSE)) printf("01");
break;
case '1':
jed_set_fuse(data, data->numfuses++, 1);
jed_set_fuse(data, data->numfuses++, 0);
- if (LOG_PARSE) printf("10");
+ if (IS_ENABLED(LOG_PARSE)) printf("10");
break;
// anything goes
@@ -128,7 +128,7 @@ static bool process_terms(jed_data *data, const uint8_t **src, const uint8_t *sr
jed_set_fuse(data, data->numfuses++, 1);
jed_set_fuse(data, data->numfuses++, 1);
- if (LOG_PARSE) printf("11");
+ if (IS_ENABLED(LOG_PARSE)) printf("11");
break;
// this product term is inhibited
@@ -136,14 +136,14 @@ static bool process_terms(jed_data *data, const uint8_t **src, const uint8_t *sr
jed_set_fuse(data, data->numfuses++, 0);
jed_set_fuse(data, data->numfuses++, 0);
- if (LOG_PARSE) printf("00");
+ if (IS_ENABLED(LOG_PARSE)) printf("00");
break;
case ' ': case '\t':
if (curinput > 0)
{
outputs = true;
- if (LOG_PARSE) printf(" ");
+ if (IS_ENABLED(LOG_PARSE)) printf(" ");
}
break;
@@ -160,13 +160,13 @@ static bool process_terms(jed_data *data, const uint8_t **src, const uint8_t *sr
if (**src == '1')
{
jed_set_fuse(data, data->numfuses++, 0);
- if (LOG_PARSE) printf("0");
+ if (IS_ENABLED(LOG_PARSE)) printf("0");
}
else
{
// write 1 for anything else
jed_set_fuse(data, data->numfuses++, 1);
- if (LOG_PARSE) printf("1");
+ if (IS_ENABLED(LOG_PARSE)) printf("1");
}
}
}
@@ -174,7 +174,7 @@ static bool process_terms(jed_data *data, const uint8_t **src, const uint8_t *sr
if (iscrlf(**src) && outputs)
{
outputs = false;
- if (LOG_PARSE) printf("\n");
+ if (IS_ENABLED(LOG_PARSE)) printf("\n");
if (curinput != pinfo->inputs || curoutput != pinfo->outputs)
return false;
@@ -241,7 +241,7 @@ static bool process_field(jed_data *data, const uint8_t **src, const uint8_t *sr
if (pinfo->inputs == 0 || pinfo->inputs >= (JED_MAX_FUSES/2))
return false;
- if (LOG_PARSE) printf("Inputs: %u\n", pinfo->inputs);
+ if (IS_ENABLED(LOG_PARSE)) printf("Inputs: %u\n", pinfo->inputs);
break;
// number of outputs
@@ -250,7 +250,7 @@ static bool process_field(jed_data *data, const uint8_t **src, const uint8_t *sr
if (pinfo->outputs == 0 || pinfo->outputs >= (JED_MAX_FUSES/2))
return false;
- if (LOG_PARSE) printf("Outputs: %u\n", pinfo->outputs);
+ if (IS_ENABLED(LOG_PARSE)) printf("Outputs: %u\n", pinfo->outputs);
break;
// number of product terms (optional)
@@ -259,12 +259,12 @@ static bool process_field(jed_data *data, const uint8_t **src, const uint8_t *sr
if (pinfo->terms == 0 || pinfo->terms >= (JED_MAX_FUSES/2))
return false;
- if (LOG_PARSE) printf("Terms: %u\n", pinfo->terms);
+ if (IS_ENABLED(LOG_PARSE)) printf("Terms: %u\n", pinfo->terms);
break;
// output polarity (optional)
case KW_PHASE:
- if (LOG_PARSE) printf("Phase...\n");
+ if (IS_ENABLED(LOG_PARSE)) printf("Phase...\n");
while (*src < srcend && !iscrlf(**src) && pinfo->xorptr < (JED_MAX_FUSES/2))
{
if (**src == '0' || **src == '1')
@@ -280,7 +280,7 @@ static bool process_field(jed_data *data, const uint8_t **src, const uint8_t *sr
// end of file (optional)
case KW_END:
- if (LOG_PARSE) printf("End of file\n");
+ if (IS_ENABLED(LOG_PARSE)) printf("End of file\n");
break;
}
@@ -349,15 +349,15 @@ int pla_parse(const void *data, size_t length, jed_data *result)
// write output polarity
if (pinfo.xorptr > 0)
{
- if (LOG_PARSE) printf("Polarity: ");
+ if (IS_ENABLED(LOG_PARSE)) printf("Polarity: ");
for (int i = 0; i < pinfo.outputs; i++)
{
int bit = pinfo.xorval[i/32] >> (i & 31) & 1;
jed_set_fuse(result, result->numfuses++, bit);
- if (LOG_PARSE) printf("%d", bit);
+ if (IS_ENABLED(LOG_PARSE)) printf("%d", bit);
}
- if (LOG_PARSE) printf("\n");
+ if (IS_ENABLED(LOG_PARSE)) printf("\n");
}
return JEDERR_NONE;
diff --git a/src/lib/util/vbiparse.cpp b/src/lib/util/vbiparse.cpp
index bfd145dd99f..dc9c22f9176 100644
--- a/src/lib/util/vbiparse.cpp
+++ b/src/lib/util/vbiparse.cpp
@@ -204,7 +204,7 @@ bool vbi_parse_white_flag(const uint16_t *source, int sourcewidth, int sourceshi
break;
/* this is useful for debugging issues with white flag detection */
- if (PRINTF_WHITE_FLAG)
+ if (IS_ENABLED(PRINTF_WHITE_FLAG))
{
printf("Histo: min=%02X max=%02X\n", minval, maxval);
for (x = 0; x < 256; x++)
@@ -214,7 +214,7 @@ bool vbi_parse_white_flag(const uint16_t *source, int sourcewidth, int sourceshi
/* ignore if we have no dynamic range */
if (maxval - minval < 10)
{
- if (PRINTF_WHITE_FLAG)
+ if (IS_ENABLED(PRINTF_WHITE_FLAG))
printf("White flag NOT detected; threshold too low\n");
return false;
}
@@ -242,7 +242,7 @@ bool vbi_parse_white_flag(const uint16_t *source, int sourcewidth, int sourceshi
/* return true if it is above the 90% mark */
result = (peakval > minval + 9 * (maxval - minval) / 10);
- if (PRINTF_WHITE_FLAG)
+ if (IS_ENABLED(PRINTF_WHITE_FLAG))
printf("White flag %s: peak=%02X thresh=%02X\n", result ? "detected" : "NOT detected", peakval, minval + 9 * (maxval - minval) / 10);
return result;
diff --git a/src/mame/audio/exidy.cpp b/src/mame/audio/exidy.cpp
index 8a726672e89..6c1feec8894 100644
--- a/src/mame/audio/exidy.cpp
+++ b/src/mame/audio/exidy.cpp
@@ -862,7 +862,7 @@ READ8_MEMBER( victory_sound_device::response_r )
{
uint8_t ret = m_pia1->b_output();
- if (VICTORY_LOG_SOUND) logerror("%04X:!!!! Sound response read = %02X\n", m_maincpu->pcbase(), ret);
+ if (IS_ENABLED(VICTORY_LOG_SOUND)) logerror("%04X:!!!! Sound response read = %02X\n", m_maincpu->pcbase(), ret);
m_pia1_cb1 = 0;
m_pia1->cb1_w(m_pia1_cb1);
@@ -875,7 +875,7 @@ READ8_MEMBER( victory_sound_device::status_r )
{
uint8_t ret = (m_pia1_ca1 << 7) | (m_pia1_cb1 << 6);
- if (VICTORY_LOG_SOUND) logerror("%04X:!!!! Sound status read = %02X\n", m_maincpu->pcbase(), ret);
+ if (IS_ENABLED(VICTORY_LOG_SOUND)) logerror("%04X:!!!! Sound status read = %02X\n", m_maincpu->pcbase(), ret);
return ret;
}
@@ -890,7 +890,7 @@ TIMER_CALLBACK_MEMBER( victory_sound_device::delayed_command_w )
WRITE8_MEMBER( victory_sound_device::command_w )
{
- if (VICTORY_LOG_SOUND) logerror("%04X:!!!! Sound command = %02X\n", m_maincpu->pcbase(), data);
+ if (IS_ENABLED(VICTORY_LOG_SOUND)) logerror("%04X:!!!! Sound command = %02X\n", m_maincpu->pcbase(), data);
space.machine().scheduler().synchronize(timer_expired_delegate(FUNC(victory_sound_device::delayed_command_w), this), data);
}
@@ -898,7 +898,7 @@ WRITE8_MEMBER( victory_sound_device::command_w )
WRITE_LINE_MEMBER( victory_sound_device::irq_clear_w )
{
- if (VICTORY_LOG_SOUND) logerror("%s:!!!! Sound IRQ clear = %02X\n", machine().describe_context(), state);
+ if (IS_ENABLED(VICTORY_LOG_SOUND)) logerror("%s:!!!! Sound IRQ clear = %02X\n", machine().describe_context(), state);
if (!state)
{
@@ -910,7 +910,7 @@ WRITE_LINE_MEMBER( victory_sound_device::irq_clear_w )
WRITE_LINE_MEMBER( victory_sound_device::main_ack_w )
{
- if (VICTORY_LOG_SOUND) logerror("%s:!!!! Sound Main ACK W = %02X\n", machine().describe_context(), state);
+ if (IS_ENABLED(VICTORY_LOG_SOUND)) logerror("%s:!!!! Sound Main ACK W = %02X\n", machine().describe_context(), state);
if (m_victory_sound_response_ack_clk && !state)
{
diff --git a/src/mame/audio/exidy440.cpp b/src/mame/audio/exidy440.cpp
index 23fd2ed37a6..166d449f85f 100644
--- a/src/mame/audio/exidy440.cpp
+++ b/src/mame/audio/exidy440.cpp
@@ -131,7 +131,7 @@ void exidy440_sound_device::device_start()
m_mixer_buffer_left = make_unique_clear<int32_t[]>(clock());
m_mixer_buffer_right = make_unique_clear<int32_t[]>(clock());
- if (SOUND_LOG)
+ if (IS_ENABLED(SOUND_LOG))
m_debuglog = fopen("sound.log", "w");
}
@@ -141,7 +141,7 @@ void exidy440_sound_device::device_start()
void exidy440_sound_device::device_stop()
{
- if (SOUND_LOG && m_debuglog)
+ if (IS_ENABLED(SOUND_LOG) && m_debuglog)
fclose(m_debuglog);
}
diff --git a/src/mame/video/victory.cpp b/src/mame/video/victory.cpp
index de0b82ff60e..51b3f4cce34 100644
--- a/src/mame/video/victory.cpp
+++ b/src/mame/video/victory.cpp
@@ -143,7 +143,7 @@ READ8_MEMBER(victory_state::video_control_r)
{
case 0x00: /* 5XFIQ */
result = m_fgcollx;
- if (LOG_COLLISION) logerror("%04X:5XFIQ read = %02X\n", space.device().safe_pcbase(), result);
+ if (IS_ENABLED(LOG_COLLISION)) logerror("%04X:5XFIQ read = %02X\n", space.device().safe_pcbase(), result);
return result;
case 0x01: /* 5CLFIQ */
@@ -153,12 +153,12 @@ READ8_MEMBER(victory_state::video_control_r)
m_fgcoll = 0;
update_irq();
}
- if (LOG_COLLISION) logerror("%04X:5CLFIQ read = %02X\n", space.device().safe_pcbase(), result);
+ if (IS_ENABLED(LOG_COLLISION)) logerror("%04X:5CLFIQ read = %02X\n", space.device().safe_pcbase(), result);
return result;
case 0x02: /* 5BACKX */
result = m_bgcollx & 0xfc;
- if (LOG_COLLISION) logerror("%04X:5BACKX read = %02X\n", space.device().safe_pcbase(), result);
+ if (IS_ENABLED(LOG_COLLISION)) logerror("%04X:5BACKX read = %02X\n", space.device().safe_pcbase(), result);
return result;
case 0x03: /* 5BACKY */
@@ -168,7 +168,7 @@ READ8_MEMBER(victory_state::video_control_r)
m_bgcoll = 0;
update_irq();
}
- if (LOG_COLLISION) logerror("%04X:5BACKY read = %02X\n", space.device().safe_pcbase(), result);
+ if (IS_ENABLED(LOG_COLLISION)) logerror("%04X:5BACKY read = %02X\n", space.device().safe_pcbase(), result);
return result;
case 0x04: /* 5STAT */
@@ -183,7 +183,7 @@ READ8_MEMBER(victory_state::video_control_r)
result |= (~m_vblank_irq & 1) << 5;
result |= (~m_bgcoll & 1) << 4;
result |= (m_screen->vpos() & 0x100) >> 5;
- if (LOG_COLLISION) logerror("%04X:5STAT read = %02X\n", space.device().safe_pcbase(), result);
+ if (IS_ENABLED(LOG_COLLISION)) logerror("%04X:5STAT read = %02X\n", space.device().safe_pcbase(), result);
return result;
default:
@@ -207,22 +207,22 @@ WRITE8_MEMBER(victory_state::video_control_w)
switch (offset)
{
case 0x00: /* LOAD IL */
- if (LOG_MICROCODE) logerror("%04X:IL=%02X\n", space.device().safe_pcbase(), data);
+ if (IS_ENABLED(LOG_MICROCODE)) logerror("%04X:IL=%02X\n", space.device().safe_pcbase(), data);
micro.i = (micro.i & 0xff00) | (data & 0x00ff);
break;
case 0x01: /* LOAD IH */
- if (LOG_MICROCODE) logerror("%04X:IH=%02X\n", space.device().safe_pcbase(), data);
+ if (IS_ENABLED(LOG_MICROCODE)) logerror("%04X:IH=%02X\n", space.device().safe_pcbase(), data);
micro.i = (micro.i & 0x00ff) | ((data << 8) & 0xff00);
if (micro.cmdlo == 5)
{
- if (LOG_MICROCODE) logerror(" Command 5 triggered by write to IH\n");
+ if (IS_ENABLED(LOG_MICROCODE)) logerror(" Command 5 triggered by write to IH\n");
command5();
}
break;
case 0x02: /* LOAD CMD */
- if (LOG_MICROCODE) logerror("%04X:CMD=%02X\n", space.device().safe_pcbase(), data);
+ if (IS_ENABLED(LOG_MICROCODE)) logerror("%04X:CMD=%02X\n", space.device().safe_pcbase(), data);
micro.cmd = data;
micro.cmdlo = data & 7;
if (micro.cmdlo == 0)
@@ -231,63 +231,63 @@ WRITE8_MEMBER(victory_state::video_control_w)
logerror(" Command 1 triggered\n");
else if (micro.cmdlo == 6)
{
- if (LOG_MICROCODE) logerror(" Command 6 triggered\n");
+ if (IS_ENABLED(LOG_MICROCODE)) logerror(" Command 6 triggered\n");
command6();
}
break;
case 0x03: /* LOAD G */
- if (LOG_MICROCODE) logerror("%04X:G=%02X\n", space.device().safe_pcbase(), data);
+ if (IS_ENABLED(LOG_MICROCODE)) logerror("%04X:G=%02X\n", space.device().safe_pcbase(), data);
micro.g = data;
break;
case 0x04: /* LOAD X */
- if (LOG_MICROCODE) logerror("%04X:X=%02X\n", space.device().safe_pcbase(), data);
+ if (IS_ENABLED(LOG_MICROCODE)) logerror("%04X:X=%02X\n", space.device().safe_pcbase(), data);
micro.xp = data;
if (micro.cmdlo == 3)
{
- if (LOG_MICROCODE) logerror(" Command 3 triggered by write to X\n");
+ if (IS_ENABLED(LOG_MICROCODE)) logerror(" Command 3 triggered by write to X\n");
command3();
}
break;
case 0x05: /* LOAD Y */
- if (LOG_MICROCODE) logerror("%04X:Y=%02X\n", space.device().safe_pcbase(), data);
+ if (IS_ENABLED(LOG_MICROCODE)) logerror("%04X:Y=%02X\n", space.device().safe_pcbase(), data);
micro.yp = data;
if (micro.cmdlo == 4)
{
- if (LOG_MICROCODE) logerror(" Command 4 triggered by write to Y\n");
+ if (IS_ENABLED(LOG_MICROCODE)) logerror(" Command 4 triggered by write to Y\n");
command4();
}
break;
case 0x06: /* LOAD R */
- if (LOG_MICROCODE) logerror("%04X:R=%02X\n", space.device().safe_pcbase(), data);
+ if (IS_ENABLED(LOG_MICROCODE)) logerror("%04X:R=%02X\n", space.device().safe_pcbase(), data);
micro.r = data;
break;
case 0x07: /* LOAD B */
- if (LOG_MICROCODE) logerror("%04X:B=%02X\n", space.device().safe_pcbase(), data);
+ if (IS_ENABLED(LOG_MICROCODE)) logerror("%04X:B=%02X\n", space.device().safe_pcbase(), data);
micro.b = data;
if (micro.cmdlo == 2)
{
- if (LOG_MICROCODE) logerror(" Command 2 triggered by write to B\n");
+ if (IS_ENABLED(LOG_MICROCODE)) logerror(" Command 2 triggered by write to B\n");
command2();
}
else if (micro.cmdlo == 7)
{
- if (LOG_MICROCODE) logerror(" Command 7 triggered by write to B\n");
+ if (IS_ENABLED(LOG_MICROCODE)) logerror(" Command 7 triggered by write to B\n");
command7();
}
break;
case 0x08: /* SCROLLX */
- if (LOG_MICROCODE) logerror("%04X:SCROLLX write = %02X\n", space.device().safe_pcbase(), data);
+ if (IS_ENABLED(LOG_MICROCODE)) logerror("%04X:SCROLLX write = %02X\n", space.device().safe_pcbase(), data);
m_scrollx = data;
break;
case 0x09: /* SCROLLY */
- if (LOG_MICROCODE) logerror("%04X:SCROLLY write = %02X\n", space.device().safe_pcbase(), data);
+ if (IS_ENABLED(LOG_MICROCODE)) logerror("%04X:SCROLLY write = %02X\n", space.device().safe_pcbase(), data);
m_scrolly = data;
break;
@@ -299,18 +299,18 @@ WRITE8_MEMBER(victory_state::video_control_w)
// D3 = SINVERT
// D2 = BIR12
// D1 = SELOVER
- if (LOG_MICROCODE) logerror("%04X:CONTROL write = %02X\n", space.device().safe_pcbase(), data);
+ if (IS_ENABLED(LOG_MICROCODE)) logerror("%04X:CONTROL write = %02X\n", space.device().safe_pcbase(), data);
m_video_control = data;
break;
case 0x0b: /* CLRVIRQ */
- if (LOG_MICROCODE) logerror("%04X:CLRVIRQ write = %02X\n", space.device().safe_pcbase(), data);
+ if (IS_ENABLED(LOG_MICROCODE)) logerror("%04X:CLRVIRQ write = %02X\n", space.device().safe_pcbase(), data);
m_vblank_irq = 0;
update_irq();
break;
default:
- if (LOG_MICROCODE) logerror("%04X:video_control_w(%02X) = %02X\n", space.device().safe_pcbase(), offset, data);
+ if (IS_ENABLED(LOG_MICROCODE)) logerror("%04X:video_control_w(%02X) = %02X\n", space.device().safe_pcbase(), offset, data);
break;
}
}
@@ -701,7 +701,7 @@ int victory_state::command4()
*/
int keep_going = 0;
- if (LOG_MICROCODE) logerror("================= EXECUTE BEGIN\n");
+ if (IS_ENABLED(LOG_MICROCODE)) logerror("================= EXECUTE BEGIN\n");
count_states(micro, 4);
@@ -714,7 +714,7 @@ int victory_state::command4()
micro.r = m_gram[0x2001 + micro.pc];
micro.xp = m_rram[0x2001 + micro.pc];
micro.yp = m_bram[0x2001 + micro.pc];
- if (LOG_MICROCODE) logerror("PC=%03X CMD=%02X I=%04X R=%02X X=%02X Y=%02X\n", micro.pc, micro.cmd, micro.i, micro.r, micro.xp, micro.yp);
+ if (IS_ENABLED(LOG_MICROCODE)) logerror("PC=%03X CMD=%02X I=%04X R=%02X X=%02X Y=%02X\n", micro.pc, micro.cmd, micro.i, micro.r, micro.xp, micro.yp);
micro.pc = (micro.pc + 2) & 0x1ff;
switch (micro.cmdlo)
@@ -730,7 +730,7 @@ int victory_state::command4()
}
} while (keep_going);
- if (LOG_MICROCODE) logerror("================= EXECUTE END\n");
+ if (IS_ENABLED(LOG_MICROCODE)) logerror("================= EXECUTE END\n");
return micro.cmd & 0x80;
}
diff --git a/src/osd/windows/window.cpp b/src/osd/windows/window.cpp
index b71ccae5c2b..7c1453f3c6a 100644
--- a/src/osd/windows/window.cpp
+++ b/src/osd/windows/window.cpp
@@ -990,7 +990,7 @@ void winwindow_ui_pause(running_machine &machine, int pause)
}
}
- if (LOG_TEMP_PAUSE)
+ if (IS_ENABLED(LOG_TEMP_PAUSE))
osd_printf_verbose("winwindow_ui_pause(): %d --> %d\n", old_temp_pause, ui_temp_pause);
}