MWCC/compiler_and_linker/unsorted/Scheduler.c

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#include "compiler/Scheduler.h"
#include "compiler/CError.h"
#include "compiler/CParser.h"
#include "compiler/Alias.h"
#include "compiler/CompilerTools.h"
#include "compiler/PCode.h"
#include "compiler/Registers.h"
#ifdef __MWERKS__
#pragma options align=mac68k
#endif
typedef struct DGNode {
struct DGNode *x0;
struct DGNode *x4;
struct DGSuccessor *successors;
PCode *instr;
UInt16 x10;
UInt16 x12;
UInt16 x14;
UInt16 x16;
short predCount;
} DGNode;
typedef struct DGSuccessor {
struct DGSuccessor *next;
DGNode *node;
UInt16 x8;
} DGSuccessor;
typedef struct DGNodeList {
struct DGNodeList *next;
DGNode *node;
} DGNodeList;
#ifdef __MWERKS__
#pragma options align=reset
#endif
static DGNodeList **register_uses[RegClassMax];
static DGNodeList **register_defs[RegClassMax];
static DGNodeList *memory_uses;
static DGNodeList *memory_defs;
static DGNodeList *side_effects;
static DGNodeList *volatile_refs;
static DGNode *defaultsuccessor;
static UInt16 criticalpath;
static MachineInfo *MI;
static void initresources(void) {
int rclass;
int i;
for (rclass = 0; (char) rclass < RegClassMax; rclass++) {
register_uses[(char) rclass] = oalloc(sizeof(DGNodeList *) * used_virtual_registers[(char) rclass]);
register_defs[(char) rclass] = oalloc(sizeof(DGNodeList *) * used_virtual_registers[(char) rclass]);
for (i = 0; i < used_virtual_registers[(char) rclass]; i++) {
register_uses[(char) rclass][i] = register_defs[(char) rclass][i] = NULL;
}
}
memory_uses = memory_defs = NULL;
side_effects = NULL;
volatile_refs = NULL;
criticalpath = 0;
}
static DGNode *makedgnode(PCode *instr) {
DGNode *node;
node = oalloc(sizeof(DGNode));
node->x0 = NULL;
node->x4 = NULL;
node->successors = NULL;
node->instr = instr;
node->x10 = node->x16 = MI->latency(instr);
node->x12 = 0;
node->x14 = 0;
node->predCount = 0;
return node;
}
static DGNode *adddgnode(DGNode *head, DGNode *node) {
if (head)
head->x4 = node;
node->x0 = head;
return node;
}
static DGNode *removedgnode(DGNode *head, DGNode *node) {
if (node->x4)
node->x4->x0 = node->x0;
else
head = node->x0;
if (node->x0)
node->x0->x4 = node->x4;
return head;
}
static void addtolist(DGNodeList **list, DGNode *node) {
DGNodeList *entry = oalloc(sizeof(DGNodeList));
entry->node = node;
entry->next = *list;
*list = entry;
}
static DGNodeList *makedglistnode(DGNode *node) {
DGNodeList *list = oalloc(sizeof(DGNodeList));
list->next = NULL;
list->node = node;
return list;
}
int is_same_operand(PCodeArg *a, PCodeArg *b) {
if (a->kind != b->kind)
return 0;
switch (a->kind) {
case PCOp_IMMEDIATE:
if (a->data.imm.value != b->data.imm.value)
return 0;
break;
case PCOp_REGISTER:
if ((char) a->arg != (char) b->arg)
return 0;
if (a->data.reg.reg != b->data.reg.reg)
return 0;
break;
case PCOp_MEMORY:
if (a->data.mem.offset != b->data.mem.offset)
return 0;
if (a->data.mem.obj != b->data.mem.obj)
return 0;
break;
case PCOp_LABEL:
if (a->data.label.label != b->data.label.label)
return 0;
break;
}
return 1;
}
static void addsuccessor(DGNode *a, DGNode *b, Boolean flag) {
int v6;
int r29;
DGSuccessor *succ;
if (flag)
v6 = a->x10;
else
v6 = 0;
if (a != b) {
r29 = (v6 > 0) ? v6 : 0;
for (succ = a->successors; succ; succ = succ->next) {
if (succ->node == b) {
if (succ->x8 < r29) {
succ->x8 = r29;
if (b->x16 + succ->x8 > a->x16)
a->x16 = b->x16 + succ->x8;
}
return;
}
}
succ = oalloc(sizeof(DGSuccessor));
succ->node = b;
succ->next = a->successors;
a->successors = succ;
succ->x8 = r29;
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if (flag && (succ->node->instr->flags & fIsBranch))
succ->x8 += MI->x8;
b->predCount++;
if (b->x16 + succ->x8 > a->x16)
a->x16 = b->x16 + succ->x8;
}
}
static void serializeall(DGNode *nodes, DGNode *node) {
DGNode *scan;
for (scan = nodes; scan; scan = scan->x0)
addsuccessor(node, scan, 0);
}
static void serializelist(DGNode *node, DGNodeList *list) {
while (list) {
if (list->node != node)
addsuccessor(node, list->node, 0);
list = list->next;
}
}
static void serializeregister(int rclass, DGNode *node, DGNodeList **defs, DGNodeList **uses, int isWrite) {
DGNodeList *list;
if (isWrite) {
for (list = *uses; list; list = list->next) {
if (list->node != node)
addsuccessor(node, list->node, 1);
}
for (list = *defs; list; list = list->next) {
if (list->node != node)
addsuccessor(node, list->node, ((char) rclass == RegClass_SPR) || (MI->x4 == 0));
}
list = makedglistnode(node);
list->next = *defs;
*defs = list;
} else {
for (list = *defs; list; list = list->next) {
if (list->node != node)
addsuccessor(node, list->node, ((char) rclass == RegClass_SPR) || (MI->x4 == 0));
}
list = makedglistnode(node);
list->next = *uses;
*uses = list;
}
}
static void serialize_load(DGNode *node) {
DGNodeList *list;
for (list = memory_defs; list; list = list->next) {
if (may_alias(node->instr, list->node->instr))
addsuccessor(node, list->node, 1);
}
addtolist(&memory_uses, node);
}
static void serialize_store(DGNode *node) {
DGNodeList *list;
for (list = memory_uses; list; list = list->next) {
if (may_alias(node->instr, list->node->instr))
addsuccessor(node, list->node, 1);
}
for (list = memory_defs; list; list = list->next) {
if (may_alias(node->instr, list->node->instr))
addsuccessor(node, list->node, 1);
}
addtolist(&memory_defs, node);
if (node->instr->flags & fPCodeFlag40000)
addtolist(&memory_uses, node);
}
static void findsuccessors(DGNode *nodes, DGNode *node) {
PCode *instr;
PCodeArg *op;
int i;
instr = node->instr;
for (i = 0, op = instr->args; i < instr->argCount; i++, op++) {
switch (op->kind) {
case PCOp_IMMEDIATE:
case PCOp_MEMORY:
break;
case PCOp_REGISTER:
if (
op->data.reg.reg < 0 ||
op->data.reg.reg > used_virtual_registers[(char) op->arg]
)
{
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CError_FATAL(491);
}
if (op->kind == PCOp_REGISTER && op->arg == RegClass_GPR) {
if (op->data.reg.reg == Register2)
break;
if (op->data.reg.reg == Register0 && !(op->data.reg.effect & (EffectRead | EffectWrite)))
break;
}
serializeregister(
op->arg,
node,
&register_defs[(char) op->arg][op->data.reg.reg],
&register_uses[(char) op->arg][op->data.reg.reg],
op->data.reg.effect & EffectWrite
);
break;
}
}
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if (instr->flags & (fIsRead | fPCodeFlag20000))
serialize_load(node);
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else if (instr->flags & (fIsWrite | fPCodeFlag40000))
serialize_store(node);
if (instr->flags & fIsVolatile) {
serializelist(node, volatile_refs);
addtolist(&volatile_refs, node);
}
if (
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((instr->flags & fIsCall | fIsBranch) && (instr->flags & fLink)) ||
(instr->flags & fSideEffects) ||
MI->serializes(instr)
)
{
serializeall(nodes, node);
addtolist(&side_effects, node);
}
if (side_effects)
serializelist(node, side_effects);
if (!node->successors && defaultsuccessor)
addsuccessor(node, defaultsuccessor, 0);
if (node->x16 > criticalpath)
criticalpath = node->x16;
}
static void computedeadlines(DGNode *nodes) {
while (nodes) {
nodes->x14 = criticalpath - nodes->x16;
nodes = nodes->x0;
}
}
static int uncovering(DGNode *node) {
int counter;
DGSuccessor *succ;
counter = 0;
for (succ = node->successors; succ; succ = succ->next) {
if (succ->node->predCount == 1)
counter++;
}
return counter;
}
static DGNode *selectinstruction(DGNode *nodes, UInt16 counter) {
DGNode *node;
DGNode *node2;
int a;
int b;
node = nodes;
while (node) {
if (node->predCount == 0 && node->x12 <= counter && MI->can_issue(node->instr))
break;
node = node->x0;
}
if (!node)
return NULL;
for (node2 = node->x0; node2; node2 = node2->x0) {
if (
node2->predCount == 0 &&
node2->x12 <= counter &&
MI->can_issue(node2->instr) &&
(node->x14 > counter || node2->x14 <= counter)
)
{
if (node->x14 > counter && node2->x14 <= counter) {
node = node2;
continue;
}
if ((a = uncovering(node)) > (b = uncovering(node2)))
continue;
if (a < b) {
node = node2;
continue;
}
if (node->x16 > node2->x16)
continue;
if (node->x16 < node2->x16) {
node = node2;
continue;
}
if (coloring) {
if (opcodeinfo[node->instr->op].x9 < opcodeinfo[node2->instr->op].x9)
continue;
if (opcodeinfo[node->instr->op].x9 > opcodeinfo[node2->instr->op].x9)
node = node2;
}
}
}
return node;
}
static void holdoffsuccessors(DGNode *node, UInt16 counter) {
DGSuccessor *succ;
DGNode *n;
for (succ = node->successors; succ; succ = succ->next) {
n = succ->node;
n->predCount--;
if (n->x12 < counter + succ->x8)
n->x12 = counter + succ->x8;
}
}
static void scheduleblock(PCodeBlock *block) {
DGNode *node;
UInt16 counter;
PCode *instr;
UInt16 i;
DGNode *head;
initresources();
defaultsuccessor = NULL;
head = NULL;
for (instr = block->lastPCode; instr; instr = instr->prevPCode) {
DGNode *n = makedgnode(instr);
findsuccessors(head, n);
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if (instr->flags & fIsBranch)
defaultsuccessor = n;
head = adddgnode(head, n);
}
computedeadlines(head);
block->firstPCode = block->lastPCode = NULL;
block->pcodeCount = 0;
MI->initialize();
counter = 0;
while (head != NULL) {
for (i = 0; i < MI->x0; i++) {
if (head == NULL)
break;
node = selectinstruction(head, counter);
if (!node)
break;
instr = node->instr;
if (node->successors)
holdoffsuccessors(node, counter);
appendpcode(block, instr);
MI->issue(instr);
head = removedgnode(head, node);
}
MI->advance_clock();
counter++;
}
freeoheap();
}
void scheduleinstructions(Boolean flag) {
PCodeBlock *block;
int cpu;
cpu = copts.scheduling;
if (cpu == 10) {
MI = &machine7450;
} else if (copts.altivec_model != 0 || cpu == 7) {
MI = &machine7400;
} else if (cpu == 2) {
MI = &machine603;
} else if (cpu == 5) {
MI = &machine603e;
} else if (cpu == 3) {
MI = &machine604;
} else if (cpu == 6) {
MI = &machine604;
} else if (cpu == 4) {
MI = &machine750;
} else if (cpu == 1) {
MI = &machine601;
} else if (cpu == 9) {
MI = &machine821;
} else {
MI = &machine603;
}
gather_alias_info();
for (block = pcbasicblocks; block; block = block->nextBlock) {
if (
block->pcodeCount > 2 &&
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(flag || !(block->flags & (fIsProlog | fIsEpilogue))) &&
!(block->flags & fScheduled)
)
{
scheduleblock(block);
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block->flags |= fScheduled;
}
}
}
int is_dependent(PCode *a, PCode *b, char rclass) {
int i;
int reg;
PCodeArg *op;
if (
b &&
b->argCount >= 1 &&
b->args[0].kind == PCOp_REGISTER &&
(char) b->args[0].arg == rclass &&
(b->args[0].data.reg.effect & EffectWrite)
)
{
reg = b->args[0].data.reg.reg;
for (i = 0; i < a->argCount; i++) {
op = &a->args[i];
if (
op->kind == PCOp_REGISTER &&
(char) op->arg == rclass &&
(op->data.reg.effect & (EffectRead | EffectWrite)) &&
op->data.reg.reg == reg
)
return 1;
}
}
return 0;
}
int uses_vpermute_unit(PCode *instr) {
int cpu;
cpu = copts.scheduling;
if (cpu == 10)
return machine7450.uses_vpermute_unit(instr);
if (copts.altivec_model != 0 || cpu == 7)
return machine7400.uses_vpermute_unit(instr);
return 0;
}
int default_uses_vpermute_unit(PCode *instr) {
return 0;
}