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#include <stdlib.h>
#include <string.h>
#include <assert.h>
#include "ir.h"


static int cap_interned = 32;
static int num_interned = 0;
static char **interned_strings = NULL;

const char* ir_str(const char *str) {
	if (interned_strings == NULL) {
		interned_strings = malloc(cap_interned * sizeof(char*));
	}
	for (int i = 0; i < num_interned; i++) {
		if (strcmp(interned_strings[i], str) == 0) return interned_strings[i];
	}
	if (num_interned == cap_interned) {
		cap_interned *= 2;
		interned_strings = realloc(interned_strings, cap_interned * sizeof(char*));
	}
	interned_strings[num_interned++] = strdup(str);
	return interned_strings[num_interned - 1];
}


struct ir* ir_make(void) {
	struct ir *ir = malloc(sizeof(struct ir));
	ir->cap = 32;
	ir->len = 0;
	ir->inss = malloc(ir->cap * sizeof(struct irins*));
	ir->globspace = 0;
	return ir;
}

void ir_delete(struct ir *ir) {
	for (int i = 0; i < ir->len; i++) {
		irins_delete(ir->inss[i]);
	}
	free(ir->inss);
	free(ir);
}

void ir_print(struct ir *ir, FILE *f) {
	fprintf(f, "IR [globspace=%d]\n", ir->globspace);
	for (int i = 0; i < ir->len; i++) {
		irins_print(ir->inss[i], f);
	}
}

const char* condcode_show(enum condcode condcode) {
	switch (condcode) {
		case CCZ: return "z";
		case CCNZ: return "nz";
		case CCL: return "l";
		case CCG: return "g";
		case CCLE: return "le";
		case CCGE: return "ge";
		default: assert(false);
	}
}

const char* ref_show(struct ref ref) {
	static const char *special[8] = {"A", "B", "C", "D", "X", "Y", "SP", "BP"};
	static char *buffer = NULL;
	static int buffer_size = 0;

	if (buffer == NULL) {
		buffer_size = 40;  // enough for all non-name refs
		buffer = malloc(buffer_size + 1);
	}

	const char *suffix = NULL;
	if (ref.type == REF_MEM) {
		if (ref.rel == REFREL_ZERO) suffix = "";
		else if (ref.rel == REFREL_DATA) suffix = ":data";
		else if (ref.rel == REFREL_HEAP) suffix = ":heap";
		else assert(false);
	}

	switch (ref.type) {
		case REF_REG:
			if (ref.reg == REG_UNUSED) {
				strcpy(buffer, "<<UNUSED?>>");
			} else if (ref.reg < 0) {
				strcpy(buffer, special[-(ref.reg - REG_A)]);
			} else {
				sprintf(buffer, "t%d", ref.reg);
			}
			break;

		case REF_MEM:
			if (ref.reg == REG_UNUSED) {
				sprintf(buffer, "[0x%x%s]", ref.offset, suffix);
			} else if (ref.reg < 0) {
				if (ref.offset < 0) {
					sprintf(buffer, "[%s - %d%s]", special[-(ref.reg - REG_A)], -ref.offset, suffix);
				} else {
					sprintf(buffer, "[%s + %d%s]", special[-(ref.reg - REG_A)], ref.offset, suffix);
				}
			} else {
				if (ref.offset < 0) {
					sprintf(buffer, "[t%d - %d%s]", ref.reg, -ref.offset, suffix);
				} else {
					sprintf(buffer, "[t%d + %d%s]", ref.reg, ref.offset, suffix);
				}
			}
			break;

		case REF_IMM:
			sprintf(buffer, "%d", ref.imm);
			break;

		case REF_VARNAME: {
			int namelen = strlen(ref.name);
			if (buffer_size < 1 + namelen) {
				buffer_size = 1 + namelen;
				buffer = realloc(buffer, 1 + namelen + 1);
			}
			buffer[0] = '@';
			memcpy(buffer + 1, ref.name, namelen + 1);
			break;
		}

		default:
			assert(false);
	}

	return buffer;
}

static const char* ref_show_c(struct ref ref) {
	static char *cbuf[3] = {NULL, NULL, NULL};
	static int cbufsize[3] = {-1, -1, -1};
	static int cbufi = 0;

	const char *sbuf = ref_show(ref);
	int len = strlen(sbuf);
	if (cbufsize[cbufi] < len) {
		cbufsize[cbufi] = len;
		if (cbuf[cbufi]) cbuf[cbufi] = realloc(cbuf[cbufi], len + 1);
		else cbuf[cbufi] = malloc(len + 1);
	}
	memcpy(cbuf[cbufi], sbuf, len + 1);

	char *buf = cbuf[cbufi];
	cbufi = (cbufi + 1) % 3;
	return buf;
}

void irins_print(struct irins *ins, FILE *f) {
	switch (ins->type) {
		case INS_ADD: fprintf(f, "\t%s <- %s + %s\n", ref_show_c(ins->r0), ref_show_c(ins->r1), ref_show_c(ins->r2)); break;
		case INS_SUB: fprintf(f, "\t%s <- %s - %s\n", ref_show_c(ins->r0), ref_show_c(ins->r1), ref_show_c(ins->r2)); break;
		case INS_MUL: fprintf(f, "\t%s <- %s * %s\n", ref_show_c(ins->r0), ref_show_c(ins->r1), ref_show_c(ins->r2)); break;
		case INS_DIV: fprintf(f, "\t%s <- %s / %s\n", ref_show_c(ins->r0), ref_show_c(ins->r1), ref_show_c(ins->r2)); break;
		case INS_MOD: fprintf(f, "\t%s <- %s %% %s\n", ref_show_c(ins->r0), ref_show_c(ins->r1), ref_show_c(ins->r2)); break;
		case INS_NEG: fprintf(f, "\t%s <- -%s\n", ref_show_c(ins->r0), ref_show_c(ins->r1)); break;
		case INS_NOT: fprintf(f, "\t%s <- ~%s\n", ref_show_c(ins->r0), ref_show_c(ins->r1)); break;
		case INS_TEST: fprintf(f, "\ttest %s, %s\n", ref_show_c(ins->r1), ref_show_c(ins->r2)); break;
		case INS_PUSH: fprintf(f, "\tpush %s\n", ref_show_c(ins->r1)); break;
		case INS_POP: fprintf(f, "\t%s <- pop\n", ref_show_c(ins->r0)); break;
		case INS_CMP: fprintf(f, "\tcmp %s, %s\n", ref_show_c(ins->r1), ref_show_c(ins->r2)); break;
		case INS_LBL: fprintf(f, "%s:\n", ins->name); break;
		case INS_JMP: fprintf(f, "\tjmp %s\n", ins->name); break;
		case INS_JCC: fprintf(f, "\tj%s %s\n", condcode_show(ins->condcode), ins->name); break;
		case INS_CALL: fprintf(f, "\tcall %s\n", ins->name); break;
		case INS_CALLV: fprintf(f, "\t%s <- call %s\n", ref_show_c(ins->r0), ins->name); break;
		case INS_RET: fprintf(f, "\tret\n"); break;
		case INS_RETV: fprintf(f, "\tret %s\n", ref_show_c(ins->r1)); break;
		case INS_MOV: fprintf(f, "\t%s <- %s\n", ref_show_c(ins->r0), ref_show_c(ins->r1)); break;
		case INS_BRK: fprintf(f, "\tbrk\n"); break;
		case INS_HWI: fprintf(f, "\thwi %s\n", ref_show_c(ins->r1)); break;
		default: assert(false);
	}
}

struct ref ir_reserve_global(struct ir *ir, int size) {
	int offset = ir->globspace;
	ir->globspace += size;
	return ref_mem(REG_UNUSED, offset, REFREL_DATA);
}

void ir_insert_before(struct ir *ir, int pos, struct irins *ins) {
	assert(pos >= 0 && pos <= ir->len);
	if (ir->len == ir->cap) {
		ir->cap *= 2;
		ir->inss = realloc(ir->inss, ir->cap * sizeof(struct irins*));
	}
	memmove(ir->inss + pos + 1, ir->inss + pos, (ir->len - pos) * sizeof(struct irins*));
	ir->inss[pos] = ins;
	ir->len++;
}

void ir_append(struct ir *ir, struct irins *ins) {
	ir_insert_before(ir, ir->len, ins);
}

struct irins* irins_make(enum instype type) {
	struct irins *ins = malloc(sizeof(struct irins));
	ins->type = type;
	ins->name = NULL;
	return ins;
}

struct irins* irins_make_name(enum instype type, const char *name) {
	struct irins *ins = irins_make(type);
	ins->name = ir_str(name);
	return ins;
}

struct irins* irins_make_0(enum instype type, struct ref r0) {
	struct irins *ins = irins_make(type);
	ins->r0 = r0;
	return ins;
}

struct irins* irins_make_01(enum instype type, struct ref r0, struct ref r1) {
	struct irins *ins = irins_make(type);
	ins->r0 = r0;
	ins->r1 = r1;
	return ins;
}

struct irins* irins_make_012(enum instype type, struct ref r0, struct ref r1, struct ref r2) {
	struct irins *ins = irins_make_01(type, r0, r1);
	ins->r2 = r2;
	return ins;
}

struct irins* irins_make_1(enum instype type, struct ref r1) {
	struct irins *ins = irins_make(type);
	ins->r1 = r1;
	return ins;
}

struct irins* irins_make_12(enum instype type, struct ref r1, struct ref r2) {
	struct irins *ins = irins_make(type);
	ins->r1 = r1;
	ins->r2 = r2;
	return ins;
}

struct irins* irins_make_jcc(const char *name, enum condcode condcode) {
	struct irins *ins = irins_make(INS_JCC);
	ins->name = ir_str(name);
	ins->condcode = condcode;
	return ins;
}

void irins_delete(struct irins *ins) {
	free(ins);
}

void irins_which_refs(const struct irins *ins, bool have[3]) {
	have[0] = false; have[1] = false; have[2] = false;
	switch (ins->type) {
		case INS_ADD: have[0] = true; have[1] = true; have[2] = true; break;
		case INS_SUB: have[0] = true; have[1] = true; have[2] = true; break;
		case INS_MUL: have[0] = true; have[1] = true; have[2] = true; break;
		case INS_DIV: have[0] = true; have[1] = true; have[2] = true; break;
		case INS_MOD: have[0] = true; have[1] = true; have[2] = true; break;
		case INS_NEG: have[0] = true; have[1] = true; break;
		case INS_NOT: have[0] = true; have[1] = true; break;
		case INS_TEST: have[1] = true; have[2] = true; break;
		case INS_PUSH: have[1] = true; break;
		case INS_POP: have[0] = true; break;
		case INS_CMP: have[1] = true; have[2] = true; break;
		case INS_LBL: break;
		case INS_JMP: break;
		case INS_JCC: break;
		case INS_CALL: break;
		case INS_CALLV: have[0] = true; break;
		case INS_RET: break;
		case INS_RETV: have[1] = true; break;
		case INS_MOV: have[0] = true; have[1] = true; break;
		case INS_BRK: break;
		case INS_HWI: have[1] = true; break;
		default: assert(false);
	}
}

const char* gen_label_name(void) {
	static int next = 0;
	static char buf[16];
	sprintf(buf, "__L%d", next++);
	return ir_str(buf);
}

struct ref ref_reg(int reg) {
	return (struct ref){REF_REG, reg, 0, REFREL_ZERO, 0, NULL};
}

struct ref ref_mem(int reg, int offset, enum refrel rel) {
	return (struct ref){REF_MEM, reg, offset, rel, 0, NULL};
}

struct ref ref_imm(int imm) {
	return (struct ref){REF_IMM, REG_UNUSED, 0, REFREL_ZERO, imm, NULL};
}

struct ref ref_varname(const char *name) {
	return (struct ref){REF_VARNAME, REG_UNUSED, 0, REFREL_ZERO, 0, ir_str(name)};
}

struct ref ref_next_register(void) {
	static int next = 0;
	return ref_reg(next++);
}

bool ref_equal(struct ref r1, struct ref r2) {
	if (r1.type != r2.type) return false;
	switch (r1.type) {
		case REF_REG: return r1.reg == r2.reg;
		case REF_MEM: return r1.reg == r2.reg && r1.offset == r2.offset && r1.rel == r2.rel;
		case REF_IMM: return r1.imm == r2.imm;
		case REF_VARNAME: return strcmp(r1.name, r2.name) == 0;
		default: assert(false);
	}
}