mirror of
https://github.com/justinethier/cyclone.git
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145 lines
5.2 KiB
Scheme
145 lines
5.2 KiB
Scheme
(import (scheme base)
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(scheme write)
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)
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;(define (test n)
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; ((lambda (x) (+ x x))
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; n))
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;(write (test 10))
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(define (fac n) (if (= n 0) 1 (* n (fac (- n 1)))))
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(write (fac 10))
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#| Next-gen runtime:
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static void __host_lambda_1(void *data, int pc, int argc, object *args) { // TODO: self? cont?
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object top;
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object stack[??];
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// TODO: stack length?
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// TODO: initialize "stack" here, and unload arguments.
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// TODO: assume the compile can compute the stack's max size, since it knows the number of args each function has
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loop:
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top = alloca(
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// TODO: if exceeded stack limit, initiate minor GC
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// bundle up args, pc, and pass them along
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switch(pc) {
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3: { // Lambda ID 3
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//static void __lambda_3(void *data, int argc, object self_7312, object r_7310) {
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// return_closcall2(data, __glo_write_scheme_write, primitive__75halt, r_7310);;
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return_closcall2(data, __glo_write_scheme_write, primitive__75halt, args[1]);
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break;
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}
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1: { // Lambda ID 1
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//static void __lambda_1(void *data, int argc, closure _,object k_735, object n_731_732) {
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// Cyc_st_add(data, "fac-test.scm:fac");
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// object c_7316 = Cyc_num_fast_eq_op(data,n_731_732, obj_int2obj(0));
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//if( (boolean_f != c_7316) ){
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// return_closcall1(data, k_735, obj_int2obj(1));
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//} else {
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//
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//closureN_type c_7319;
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//c_7319.hdr.mark = gc_color_red;
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// c_7319.hdr.grayed = 0;
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//c_7319.tag = closureN_tag;
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// c_7319.fn = (function_type)__lambda_2;
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//c_7319.num_args = 1;
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//c_7319.num_elements = 2;
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//c_7319.elements = (object *)alloca(sizeof(object) * 2);
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//c_7319.elements[0] = k_735;
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//c_7319.elements[1] = n_731_732;
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//
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//
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//complex_num_type local_7329; object c_7330 = Cyc_fast_sub(data,&local_7329,n_731_732, obj_int2obj(1));
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//return_closcall2(data, __glo_fac, &c_7319, c_7330);}
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//;
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//}
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// TODO
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break;
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}
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2: { // Lambda ID 2
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//static void __lambda_2(void *data, int argc, object self_7311, object r_737) {
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//complex_num_type local_7324; object c_7325 = Cyc_fast_mul(data,&local_7324,((closureN)self_7311)->elements[1], r_737);
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//return_closcall1(data, ((closureN)self_7311)->elements[0], c_7325);;
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object local_7324 = alloca(sizeof(complex_num_type));
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object c_7325 = Cyc_fast_mul(data,local_7324,((closureN)args[0])->elements[1], args[1]);
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// TODO: can we be smart enough to call lambda directly, instead of via closure?
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return_closcall1(data, ((closureN)args[0])->elements[0], c_7325);
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break;
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}
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default: {
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// raise error
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}
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}
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}
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|#
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#| Currently-generated code:
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static void __lambda_3(void *data, int argc, object self_7312, object r_7310) ;
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static void __lambda_1(void *data, int argc, closure _,object k_735, object n_731_732) ;
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static void __lambda_2(void *data, int argc, object self_7311, object r_737) ;
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static void __lambda_3(void *data, int argc, object self_7312, object r_7310) {
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return_closcall2(data, __glo_write_scheme_write, primitive__75halt, r_7310);;
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}
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static void __lambda_1(void *data, int argc, closure _,object k_735, object n_731_732) {
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Cyc_st_add(data, "fac-test.scm:fac");
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object c_7316 = Cyc_num_fast_eq_op(data,n_731_732, obj_int2obj(0));
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if( (boolean_f != c_7316) ){
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return_closcall1(data, k_735, obj_int2obj(1));
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} else {
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closureN_type c_7319;
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c_7319.hdr.mark = gc_color_red;
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c_7319.hdr.grayed = 0;
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c_7319.tag = closureN_tag;
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c_7319.fn = (function_type)__lambda_2;
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c_7319.num_args = 1;
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c_7319.num_elements = 2;
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c_7319.elements = (object *)alloca(sizeof(object) * 2);
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c_7319.elements[0] = k_735;
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c_7319.elements[1] = n_731_732;
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complex_num_type local_7329; object c_7330 = Cyc_fast_sub(data,&local_7329,n_731_732, obj_int2obj(1));
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return_closcall2(data, __glo_fac, &c_7319, c_7330);}
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;
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}
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static void __lambda_2(void *data, int argc, object self_7311, object r_737) {
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complex_num_type local_7324; object c_7325 = Cyc_fast_mul(data,&local_7324,((closureN)self_7311)->elements[1], r_737);
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return_closcall1(data, ((closureN)self_7311)->elements[0], c_7325);;
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}
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static void c_entry_pt_first_lambda(void *data, int argc, closure cont, object value);
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extern void c_schemecyclonecommon_entry_pt(void *data, int argc, closure cont, object value);
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extern void c_schemebase_entry_pt(void *data, int argc, closure cont, object value);
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extern void c_schemewrite_entry_pt(void *data, int argc, closure cont, object value);
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static void c_entry_pt(data, argc, env,cont) void *data; int argc; closure env,cont; {
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Cyc_set_globals_changed((gc_thread_data *)data);
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add_global((object *) &__glo_fac);
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mclosure0(c_7313, (function_type)__lambda_1);c_7313.num_args = 1;
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__glo_fac = &c_7313;
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make_cvar(cvar_7334, (object *)&__glo_fac);make_pair(pair_7335, find_or_add_symbol("fac"), &cvar_7334);
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make_pair(c_7336, &pair_7335,Cyc_global_variables);
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Cyc_global_variables = &c_7336;
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mclosure1(c_done, c_entry_pt_first_lambda, &c_done);
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mclosure1(c_7337, c_schemewrite_entry_pt, &c_done);
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mclosure1(c_7338, c_schemebase_entry_pt, &c_7337);
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mclosure1(c_7339, c_schemecyclonecommon_entry_pt, &c_7338);
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(c_7339.fn)(data, 0, &c_7339, &c_7339);
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}
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static void c_entry_pt_first_lambda(void *data, int argc, closure cont, object value) {
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mclosure0(c_7332, (function_type)__lambda_3);c_7332.num_args = 1;
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return_closcall2(data, __glo_fac, &c_7332, obj_int2obj(10));
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;
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}
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|#
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