X-Git-Url: https://code.kerkeslager.com/?a=blobdiff_plain;f=templates%2Fprogram.c;h=4ac6289f414a65030274c62f3dc5dc4db476ace6;hb=a96e96f3f783930707122f691cd6a08a90416a74;hp=3b65e02bedb7c64d95164e19696721159b907209;hpb=1131ab0f3fb9ebec5c42d7fcb7f4bc8088386900;p=fur diff --git a/templates/program.c b/templates/program.c index 3b65e02..4ac6289 100644 --- a/templates/program.c +++ b/templates/program.c @@ -4,22 +4,44 @@ #include #include +/* Some terminology used in function names: + * - initialize: These functions take a pointer and potentially some other arguments, and use those + * to initialize the value pointed to by self. Initialize functions DO NOT allocate the function, + * so they can be used to initialize stack-allocated variables. + * - construct: This allocates a value for a pointer, initializes it, and returns it. This is for + * heap-allocated values. It may be as simple as allocating the memory, calling an initialize, and + * returning it. + * - deinitialize: These functions dereference or free any objects pointed to by the self pointer's + * value, but they don't actually free the self pointer. This is useful for stack-allocated objects + * which point to heap-allocated objects. + * - destruct: This dereferences or frees memory pointed to by the self argument, and all the + * pointers on the self argument. + */ + {% for standard_library in standard_libraries %} #include <{{standard_library}}> {% endfor %} -struct String; -typedef struct String String; enum Type; typedef enum Type Type; union Instance; typedef union Instance Instance; struct Object; typedef struct Object Object; -struct Runtime; -typedef struct Runtime Runtime; +struct EnvironmentNode; +typedef struct EnvironmentNode EnvironmentNode; +struct Environment; +typedef struct Environment Environment; +struct EnvironmentPool; +typedef struct EnvironmentPool EnvironmentPool; -const char * const SYMBOL_LIST[] = { +const char* const STRING_LITERAL_LIST[] = { +{% for string_literal in string_literal_list %} + "{{ string_literal }}", +{% endfor %} +}; + +const char* const SYMBOL_LIST[] = { {% for symbol in symbol_list %} "{{ symbol }}", {% endfor %} @@ -28,15 +50,26 @@ const char * const SYMBOL_LIST[] = { enum Type { BOOLEAN, + CLOSURE, INTEGER, - STRING + STRING, + VOID +}; + +struct Closure; +typedef struct Closure Closure; +struct Closure +{ + Environment* closed; + Object (*call)(EnvironmentPool*, Environment*, size_t, Object*); }; union Instance { bool boolean; + Closure closure; int32_t integer; - char* string; + const char* string; }; struct Object @@ -45,18 +78,10 @@ struct Object Instance instance; }; -const Object TRUE = { - BOOLEAN, - true -}; - -const Object FALSE = { - BOOLEAN, - false -}; +const Object builtin$true = { BOOLEAN, (Instance)(bool){ true } }; +const Object builtin$false = { BOOLEAN, (Instance)(bool){ false } }; +const Object builtin$nil = { VOID, { 0 } }; -struct EnvironmentNode; -typedef struct EnvironmentNode EnvironmentNode; struct EnvironmentNode { const char* key; @@ -64,33 +89,69 @@ struct EnvironmentNode EnvironmentNode* next; }; -struct Environment; -typedef struct Environment Environment; struct Environment { + bool mark; + bool live; + + Environment* parent; EnvironmentNode* root; }; -Environment* Environment_construct() +void Environment_initialize(Environment* self, Environment* parent) { - // TODO Handle malloc returning NULL - Environment* result = malloc(sizeof(Environment)); - result->root = NULL; - return result; + self->parent = parent; + self->root = NULL; + + // We are currently only ever initializing environments at the beginning of running functions, so + // for now at least we can assume that we want it to be live immediately. + self->live = true; } -void Environment_destruct(Environment* self) +void Environment_deinitialize(Environment* self) { EnvironmentNode* next; for(EnvironmentNode* node = self->root; node != NULL; node = next) { - // We don't need to destruct the permanent strings, because those will be destructed at the end when the Runtime is destructed - // The above comment represents all heap-allocated objects currently, so we don't need to destruct Objects (yet) next = node->next; free(node); } } +void Environment_setLive(Environment* self, bool live) +{ + self->live = live; +} + +void Environment_mark(Environment* self) +{ + if(self == NULL) return; + if(self->mark) return; // Prevents infinite recursion in the case of cycles + + self->mark = true; + + Environment_mark(self->parent); + + for(EnvironmentNode* node = self->root; node != NULL; node = node->next) + { + switch(node->value.type) + { + case BOOLEAN: + case INTEGER: + case STRING: + case VOID: + break; + + case CLOSURE: + Environment_mark(node->value.instance.closure.closed); + break; + + default: + assert(false); + } + } +} + // This need not be thread safe because environments exist on one thread only void Environment_set(Environment* self, const char* const key, Object value) { @@ -105,64 +166,146 @@ Object Environment_get(Environment* self, const char* const symbol) { for(EnvironmentNode* node = self->root; node != NULL; node = node->next) { - // We can compare pointers because pointers are unique in the SYMBOLS_LIST + // We can compare pointers because pointers are unique in the SYMBOL_LIST if(node->key == symbol) { return node->value; } } + if(self->parent != NULL) + { + return Environment_get(self->parent, symbol); + } + // TODO Handle symbol errors assert(false); } - -struct Runtime +# define POOL_SIZE 64 +struct EnvironmentPool { - size_t permanentStringsLength; - size_t permanentStringsAllocated; - char** permanentStrings; + int8_t freeIndex; + bool allocatedFlags[POOL_SIZE]; + Environment environments[POOL_SIZE]; + EnvironmentPool* overflow; }; -Runtime* Runtime_construct() +EnvironmentPool* EnvironmentPool_construct(); +void EnvironmentPool_initialize(EnvironmentPool*); +void EnvironmentPool_deinitialize(EnvironmentPool*); +void EnvironmentPool_destruct(EnvironmentPool*); + +EnvironmentPool* EnvironmentPool_construct() { - Runtime* result = malloc(sizeof(Runtime)); - result->permanentStringsLength = 0; - result->permanentStringsAllocated = 0; - result->permanentStrings = NULL; + EnvironmentPool* result = malloc(sizeof(EnvironmentPool)); + EnvironmentPool_initialize(result); return result; } -void Runtime_destruct(Runtime* self) +void EnvironmentPool_initialize(EnvironmentPool* self) +{ + self->overflow = NULL; + self->freeIndex = 0; + + for(size_t i = 0; i < POOL_SIZE; i++) + { + self->allocatedFlags[i] = false; + self->environments[i].live = false; + } +} + +void EnvironmentPool_deinitialize(EnvironmentPool* self) +{ + // We can assume if this is being called, none of the Environments are live + for(int8_t i = 0; i < POOL_SIZE; i++) + { + if(self->allocatedFlags[i]) Environment_deinitialize(&(self->environments[i])); + } + + EnvironmentPool_destruct(self->overflow); +} + +void EnvironmentPool_destruct(EnvironmentPool* self) { - free(self->permanentStrings); + if(self == NULL) return; + EnvironmentPool_deinitialize(self); free(self); } -void Runtime_addPermanentString(Runtime* self, char* const string) +void EnvironmentPool_GC(EnvironmentPool* self) { - // TODO Make this function thread-safe - if(self->permanentStringsLength == self->permanentStringsAllocated) + // Unmark all the environments + for(EnvironmentPool* current = self; current != NULL; current = current->overflow) { - if(self->permanentStringsAllocated == 0) + for(int8_t i = 0; i < POOL_SIZE; i++) { - self->permanentStringsAllocated = 8; + current->environments[i].mark = false; } - else + } + + // Mark live enviroments and environments referenced by live environments + for(EnvironmentPool* current = self; current != NULL; current = current->overflow) + { + for(int8_t i = 0; i < POOL_SIZE; i++) { - self->permanentStringsAllocated = self->permanentStringsAllocated * 2; + if(current->environments[i].live) + { + Environment_mark(&(current->environments[i])); + } } + } - self->permanentStrings = realloc( - self->permanentStrings, - sizeof(char* const) * self->permanentStringsAllocated - ); + // TODO We never free pools until the very end--we could free a pool if two pools are empty + for(EnvironmentPool* current = self; current != NULL; current = current->overflow) + { + for(int8_t i = POOL_SIZE - 1; i >= 0; i--) + { + if(!current->environments[i].mark && current->allocatedFlags[i]) + { + Environment_deinitialize(&(current->environments[i])); + current->allocatedFlags[i] = false; + current->freeIndex = i; + } + } + } +} - // TODO Handle realloc returning NULL +Environment* EnvironmentPool_allocate(EnvironmentPool* self) +{ + for(EnvironmentPool* current = self; current != NULL; current = current->overflow) + { + for(; current->freeIndex < POOL_SIZE; current->freeIndex++) + { + if(!current->allocatedFlags[current->freeIndex]) + { + current->allocatedFlags[current->freeIndex] = true; + return &(current->environments[current->freeIndex]); + } + } } - self->permanentStrings[self->permanentStringsLength] = string; - self->permanentStringsLength++; + EnvironmentPool_GC(self); + + EnvironmentPool* previous; + for(EnvironmentPool* current = self; current != NULL; current = current->overflow) + { + for(; current->freeIndex < POOL_SIZE; current->freeIndex++) + { + if(!current->allocatedFlags[current->freeIndex]) + { + current->allocatedFlags[current->freeIndex] = true; + return &(current->environments[current->freeIndex]); + } + else + { + previous = current; + } + } + } + + previous->overflow = EnvironmentPool_construct(); + return EnvironmentPool_allocate(previous->overflow); } Object integerLiteral(int32_t literal) @@ -173,10 +316,8 @@ Object integerLiteral(int32_t literal) return result; } -Object stringLiteral(Runtime* runtime, char* literal) +Object stringLiteral(const char* literal) { - Runtime_addPermanentString(runtime, literal); - Object result; result.type = STRING; result.instance.string = literal; @@ -184,7 +325,7 @@ Object stringLiteral(Runtime* runtime, char* literal) } // TODO Make this conditionally added -Object builtin$negate(Object input) +Object operator$negate(Object input) { assert(input.type == INTEGER); @@ -194,136 +335,27 @@ Object builtin$negate(Object input) return result; } -Object builtin$add(Object left, Object right) -{ - assert(left.type == INTEGER); - assert(right.type == INTEGER); - - Object result; - result.type = INTEGER; - result.instance.integer = left.instance.integer + right.instance.integer; - return result; -} - -Object builtin$subtract(Object left, Object right) -{ - assert(left.type == INTEGER); - assert(right.type == INTEGER); - - Object result; - result.type = INTEGER; - result.instance.integer = left.instance.integer - right.instance.integer; - return result; -} - -Object builtin$multiply(Object left, Object right) +{% for id in infix_declarations %} +Object operator${{ id.name }}(Object left, Object right) { - assert(left.type == INTEGER); - assert(right.type == INTEGER); + assert(left.type == {{ id.in_type.upper() }}); + assert(right.type == {{ id.in_type.upper() }}); Object result; - result.type = INTEGER; - result.instance.integer = left.instance.integer * right.instance.integer; - return result; -} - -Object builtin$integerDivide(Object left, Object right) -{ - assert(left.type == INTEGER); - assert(right.type == INTEGER); - - Object result; - result.type = INTEGER; - result.instance.integer = left.instance.integer / right.instance.integer; - return result; -} - -Object builtin$modularDivide(Object left, Object right) -{ - assert(left.type == INTEGER); - assert(right.type == INTEGER); - - Object result; - result.type = INTEGER; - result.instance.integer = left.instance.integer % right.instance.integer; - return result; -} - -Object builtin$equals(Object left, Object right) -{ - assert(left.type == INTEGER); - assert(right.type == INTEGER); - - Object result = { BOOLEAN, left.instance.integer == right.instance.integer }; - return result; -} - -Object builtin$notEquals(Object left, Object right) -{ - assert(left.type == INTEGER); - assert(right.type == INTEGER); - - Object result = { BOOLEAN, left.instance.integer != right.instance.integer }; - return result; -} - -Object builtin$greaterThan(Object left, Object right) -{ - assert(left.type == INTEGER); - assert(right.type == INTEGER); - - Object result = { BOOLEAN, left.instance.integer > right.instance.integer }; - return result; -} - -Object builtin$lessThan(Object left, Object right) -{ - assert(left.type == INTEGER); - assert(right.type == INTEGER); - - Object result = { BOOLEAN, left.instance.integer < right.instance.integer }; - return result; -} - -Object builtin$greaterThanOrEqual(Object left, Object right) -{ - assert(left.type == INTEGER); - assert(right.type == INTEGER); - - Object result = { BOOLEAN, left.instance.integer >= right.instance.integer }; - return result; -} - -Object builtin$lessThanOrEqual(Object left, Object right) -{ - assert(left.type == INTEGER); - assert(right.type == INTEGER); - - Object result = { BOOLEAN, left.instance.integer <= right.instance.integer }; - return result; -} - -Object builtin$and(Object left, Object right) -{ - assert(left.type == BOOLEAN); - assert(right.type == BOOLEAN); - - Object result = { BOOLEAN, left.instance.boolean && right.instance.boolean }; + result.type = {{ id.out_type.upper() }}; + result.instance.{{ id.out_type.lower() }} = left.instance.{{ id.in_type.lower() }} {{ id.operator }} right.instance.{{ id.in_type.lower() }}; return result; } +{% endfor %} -Object builtin$or(Object left, Object right) +{% if 'pow' in builtins %} +Object builtin$pow$implementation(EnvironmentPool* environmentPool, Environment* parent, size_t argc, Object* args) { - assert(left.type == BOOLEAN); - assert(right.type == BOOLEAN); + assert(argc == 2); - Object result = { BOOLEAN, left.instance.boolean || right.instance.boolean }; - return result; -} + Object base = args[0]; + Object exponent = args[1]; -{% if 'pow' in builtins %} -Object builtin$pow(Object base, Object exponent) -{ assert(base.type == INTEGER); assert(exponent.type == INTEGER); @@ -332,43 +364,71 @@ Object builtin$pow(Object base, Object exponent) result.instance.integer = pow(base.instance.integer, exponent.instance.integer); return result; } + +Object builtin$pow = { CLOSURE, (Instance)(Closure){ NULL, builtin$pow$implementation } }; {% endif %} {% if 'print' in builtins %} -void builtin$print(Object output) +Object builtin$print$implementation(EnvironmentPool* environmentPool, Environment* parent, size_t argc, Object* args) { - switch(output.type) + for(size_t i = 0; i < argc; i++) { - case BOOLEAN: - fputs(output.instance.boolean ? "true" : "false", stdout); - break; - - case INTEGER: - printf("%" PRId32, output.instance.integer); - break; - - case STRING: - // Using fwrite instead of printf to handle size_t length - printf("%s", output.instance.string); - break; - - default: - assert(false); + Object output = args[i]; + switch(output.type) + { + case BOOLEAN: + fputs(output.instance.boolean ? "true" : "false", stdout); + break; + + case CLOSURE: + // TODO Print something better + printf(""); + break; + + case INTEGER: + printf("%" PRId32, output.instance.integer); + break; + + case STRING: + // Using fwrite instead of printf to handle size_t length + printf("%s", output.instance.string); + break; + + case VOID: + printf("nil"); + break; + + default: + assert(false); + } } + + // TODO Return something better + return builtin$false; } + +Object builtin$print = { CLOSURE, (Instance)(Closure){ NULL, builtin$print$implementation } }; {% endif %} +{% for function_definition in function_definition_list %} +{{ function_definition }} +{% endfor %} int main(int argc, char** argv) { - Runtime* runtime = Runtime_construct(); - Environment* environment = Environment_construct(); + EnvironmentPool* environmentPool = EnvironmentPool_construct(); + Environment* environment = EnvironmentPool_allocate(environmentPool); + Environment_initialize(environment, NULL); + + // TODO Use the symbol from SYMBOL_LIST + {% for builtin in builtins %} + Environment_set(environment, "{{ builtin }}", builtin${{ builtin }}); + {% endfor %} {% for statement in statements %} {{ statement }} {% endfor %} - Environment_destruct(environment); - Runtime_destruct(runtime); - + Environment_setLive(environment, false); + EnvironmentPool_destruct(environmentPool); return 0; }