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Ввести v4 для режима текстового UI

main
Михаил Капелько пре 6 месеци
родитељ
комит
2357062e25
20 измењених фајлова са 1125 додато и 0 уклоњено
  1. +5
    -0
      v4/cpp.includes
  2. +1
    -0
      v4/gen-C++
  3. +2
    -0
      v4/gen-Python
  4. +10
    -0
      v4/llm.py
  5. +29
    -0
      v4/main.cpp
  6. +10
    -0
      v4/main.py
  7. +123
    -0
      v4/memory.cpp
  8. +12
    -0
      v4/memory.h
  9. +123
    -0
      v4/memory.py
  10. +5
    -0
      v4/memory_Context.cpp
  11. +21
    -0
      v4/memory_Context.h
  12. +19
    -0
      v4/memory_Context.py
  13. +212
    -0
      v4/memory_test.cpp
  14. +15
    -0
      v4/memory_test.h
  15. +207
    -0
      v4/memory_test.py
  16. +186
    -0
      v4/tPythonC++/CPP.py
  17. +76
    -0
      v4/tPythonC++/Function.py
  18. +37
    -0
      v4/tPythonC++/process.py
  19. +25
    -0
      v4/tPythonC++/translate
  20. +7
    -0
      v4/translate-py-cxx

+ 5
- 0
v4/cpp.includes Прегледај датотеку

@@ -0,0 +1,5 @@
#include <map>
#include <string>
#include <vector>
#include "memory.h"
#include "memory_Context.h"

+ 1
- 0
v4/gen-C++ Прегледај датотеку

@@ -0,0 +1 @@
c++ -o test_memory_C++ -std=c++11 -I. memory.cpp memory_Context.cpp memory_test.cpp main.cpp

+ 2
- 0
v4/gen-Python Прегледај датотеку

@@ -0,0 +1,2 @@
echo "python3 main.py" > test_memory_Python
chmod +x test_memory_Python

+ 10
- 0
v4/llm.py Прегледај датотеку

@@ -0,0 +1,10 @@
import copy

# Make deep copies of arguments to mimic behaviour of strongly typed languages.
# https://stackoverflow.com/a/15398021
def llm_by_value(f):
def _f(*args, **kwargs):
argsCopy = copy.deepcopy(args)
kwargsCopy = copy.deepcopy(kwargs)
return f(*argsCopy, **kwargsCopy)
return _f

+ 29
- 0
v4/main.cpp Прегледај датотеку

@@ -0,0 +1,29 @@
#include <iostream>
#include <string>
#include <vector>
#include "memory_test.h"
#include "memory_Context.h"

extern memory_Context memory_createContext();

int main() {
memory_createContext();
std::cout
<< memory_test_generateConstPlayfield()
<< std::endl
<< memory_test_selectItem_1x()
<< std::endl
<< memory_test_selectItem_2x()
<< std::endl
<< memory_test_selectItem_3x()
<< std::endl
<< memory_test_shouldDeselectMismatchedItems()
<< std::endl
<< memory_test_shouldDeselectMismatchedItems_itemTwice()
<< std::endl
<< memory_test_shouldDetectVictory()
<< std::endl
<< memory_test_shouldHideMatchingItems()
<< std::endl
;
}

+ 10
- 0
v4/main.py Прегледај датотеку

@@ -0,0 +1,10 @@
from memory_test import *

print(memory_test_generateConstPlayfield())
print(memory_test_selectItem_1x())
print(memory_test_selectItem_2x())
print(memory_test_selectItem_3x())
print(memory_test_shouldDeselectMismatchedItems())
print(memory_test_shouldDeselectMismatchedItems_itemTwice())
print(memory_test_shouldDetectVictory())
print(memory_test_shouldHideMatchingItems())

+ 123
- 0
v4/memory.cpp Прегледај датотеку

@@ -0,0 +1,123 @@
OPT_HEADER/OPT_INCLUDES: 'None'/'None'
#include <map>
#include <string>
#include <vector>
#include "memory.h"
#include "memory_Context.h"

////////////////
// Client initiated input
////////////////

// Generate constant playfield
memory_Context memory_generateConstPlayfield(
memory_Context c
) {
std::map<int, int> idGroups = { };
auto id = 0;
for (auto gid = 0; gid < c.playfieldSize; ++gid) {
idGroups[id] = gid;
id += 1;
idGroups[id] = gid;
id += 1;
}
c.playfieldItems = idGroups;
c.recentField = "playfieldItems";
return c;
}

// Select item
memory_Context memory_selectItem(
memory_Context c
) {
if (
c.selectedItems.size() == 2
) {
c.selectedItems.clear();
}
c.selectedItems.push_back(c.selectedId);
c.recentField = "selectedItems";
return c;
}

////////////////
// System initiated reaction
////////////////

// Deselect mismatched items
//
// Conditions:
// 0. Two items has just been selected
// 1. The same item has been selected twice
// 2. Selected items are of different groups
memory_Context memory_shouldDeselectMismatchedItems(
memory_Context c
) {
if (!(
c.recentField == "selectedItems" &&
c.selectedItems.size() == 2
)) {
c.recentField = "none";
return c;
}
if (
c.selectedItems[0] == c.selectedItems[1]
) {
c.mismatchedItems.clear();
c.mismatchedItems.push_back(c.selectedItems[0]);
c.recentField = "mismatchedItems";
return c;
}
if (
c.playfieldItems[c.selectedItems[0]] != c.playfieldItems[c.selectedItems[1]]
) {
c.mismatchedItems.clear();
c.mismatchedItems.push_back(c.selectedItems[0]);
c.mismatchedItems.push_back(c.selectedItems[1]);
c.recentField = "mismatchedItems";
return c;
}
c.recentField = "none";
return c;
}

// Detect victory
//
// Conditions:
// 1. Matching items have just been hidden and all items are hidden now
memory_Context memory_shouldDetectVictory(
memory_Context c
) {
if (
c.recentField == "hiddenItems" &&
c.hiddenItems.size() == c.playfieldItems.size()
) {
c.victory = true;
c.recentField = "victory";
return c;
}
c.recentField = "none";
return c;
}

// Hide matching selected items
//
// Conditions:
// 1. Two items are selected and they are of the same group
memory_Context memory_shouldHideMatchingItems(
memory_Context c
) {
if (
c.recentField == "selectedItems" &&
c.selectedItems.size() == 2 &&
c.playfieldItems[c.selectedItems[0]] == c.playfieldItems[c.selectedItems[1]]
) {
c.hiddenItems.push_back(c.selectedItems[0]);
c.hiddenItems.push_back(c.selectedItems[1]);
c.recentField = "hiddenItems";
return c;
}
c.recentField = "none";
return c;
}


+ 12
- 0
v4/memory.h Прегледај датотеку

@@ -0,0 +1,12 @@
#include "memory_Context.h"

#ifndef memory_HEADER
#define memory_HEADER

memory_Context memory_generateConstPlayfield(memory_Context);
memory_Context memory_selectItem(memory_Context);
memory_Context memory_shouldDeselectMismatchedItems(memory_Context);
memory_Context memory_shouldDetectVictory(memory_Context);
memory_Context memory_shouldHideMatchingItems(memory_Context);

#endif // memory_HEADER

+ 123
- 0
v4/memory.py Прегледај датотеку

@@ -0,0 +1,123 @@
from memory_Context import *
from llm import *

########
# Client initiated input
########

# Generate constant playfield
@llm_by_value
def memory_generateConstPlayfield(
c: memory_Context
) -> memory_Context:
idGroups: dict[int, int] = { }
id = 0
for gid in range(0, c.playfieldSize):
idGroups[id] = gid
id += 1
idGroups[id] = gid
id += 1
#}
c.playfieldItems = idGroups
c.recentField = "playfieldItems"
return c
#}

# Select item
@llm_by_value
def memory_selectItem(
c: memory_Context
) -> memory_Context:
if (
len(c.selectedItems) == 2
):
c.selectedItems.clear()
#}
c.selectedItems.append(c.selectedId)
c.recentField = "selectedItems"
return c
#}

########
# System initiated reaction
########

# Deselect mismatched items
#
# Conditions:
# 0. Two items has just been selected
# 1. The same item has been selected twice
# 2. Selected items are of different groups
@llm_by_value
def memory_shouldDeselectMismatchedItems(
c: memory_Context
) -> memory_Context:
if not (
c.recentField == "selectedItems" and
len(c.selectedItems) == 2
):
c.recentField = "none"
return c
#}
if (
c.selectedItems[0] == c.selectedItems[1]
):
c.mismatchedItems.clear()
c.mismatchedItems.append(c.selectedItems[0])
c.recentField = "mismatchedItems"
return c
#}
if (
c.playfieldItems[c.selectedItems[0]] != c.playfieldItems[c.selectedItems[1]]
):
c.mismatchedItems.clear()
c.mismatchedItems.append(c.selectedItems[0])
c.mismatchedItems.append(c.selectedItems[1])
c.recentField = "mismatchedItems"
return c
#}
c.recentField = "none"
return c
#}

# Detect victory
#
# Conditions:
# 1. Matching items have just been hidden and all items are hidden now
@llm_by_value
def memory_shouldDetectVictory(
c: memory_Context
) -> memory_Context:
if (
c.recentField == "hiddenItems" and
len(c.hiddenItems) == len(c.playfieldItems)
):
c.victory = True
c.recentField = "victory"
return c
#}
c.recentField = "none"
return c
#}

# Hide matching selected items
#
# Conditions:
# 1. Two items are selected and they are of the same group
@llm_by_value
def memory_shouldHideMatchingItems(
c: memory_Context
) -> memory_Context:
if (
c.recentField == "selectedItems" and
len(c.selectedItems) == 2 and
c.playfieldItems[c.selectedItems[0]] == c.playfieldItems[c.selectedItems[1]]
):
c.hiddenItems.append(c.selectedItems[0])
c.hiddenItems.append(c.selectedItems[1])
c.recentField = "hiddenItems"
return c
#}
c.recentField = "none"
return c
#}

+ 5
- 0
v4/memory_Context.cpp Прегледај датотеку

@@ -0,0 +1,5 @@
#include "memory_Context.h"

memory_Context memory_createContext() {
return memory_Context();
}

+ 21
- 0
v4/memory_Context.h Прегледај датотеку

@@ -0,0 +1,21 @@
#include <map>
#include <string>
#include <vector>

#ifndef memory_Context_HEADER
#define memory_Context_HEADER

struct memory_Context {
std::vector<int> hiddenItems;
std::vector<int> mismatchedItems;
std::map<int, int> playfieldItems;
int playfieldSize = 0;
std::string recentField = "none";
int selectedId = -1;
std::vector<int> selectedItems;
bool victory = false;
};

memory_Context memory_createContext();

#endif // memory_Context_HEADER

+ 19
- 0
v4/memory_Context.py Прегледај датотеку

@@ -0,0 +1,19 @@
class memory_Context:
def __init__(self):
self.hiddenItems = []
self.mismatchedItems = []
self.playfieldItems = {}
self.playfieldSize = 0
self.recentField = "none"
self.selectedId = -1
self.selectedItems = []
self.victory = False

def __repr__(self):
return self.__str__()

def __str__(self):
return f"memory_Context(playfieldI/playfieldS/recentF/selectedId/selectedI: '{self.playfieldItems}'/'{self.playfieldSize}'/'{self.recentField}'/'{self.selectedId}'/'{self.selectedItems}')"

def memory_createContext():
return memory_Context()

+ 212
- 0
v4/memory_test.cpp Прегледај датотеку

@@ -0,0 +1,212 @@
OPT_HEADER/OPT_INCLUDES: 'None'/'None'
#include <map>
#include <string>
#include <vector>
#include "memory.h"
#include "memory_Context.h"

std::string memory_test_generateConstPlayfield(
) {
auto c = memory_createContext();
c.playfieldSize = 2;
c = memory_generateConstPlayfield(c);
if (
c.recentField == "playfieldItems" &&
c.playfieldItems.size() == 4 &&
c.playfieldItems[0] == 0 &&
c.playfieldItems[1] == 0 &&
c.playfieldItems[2] == 1 &&
c.playfieldItems[3] == 1
) {
return "OK: memory_generateConstPlayfield";
}
return "ERR: memory_generateConstPlayfield";
}



std::string memory_test_selectItem_1x(
) {
auto c = memory_createContext();
c.playfieldSize = 2;
c = memory_generateConstPlayfield(c);
// Select the first item.
c.selectedId = 0;
c = memory_selectItem(c);
// See if it's in selectedItems now.
if (
c.recentField == "selectedItems" &&
c.selectedItems.size() == 1 &&
c.selectedItems[0] == 0
) {
return "OK: memory_selectItem_1x";
}
return "ERR: memory_selectItem_1x";
}



std::string memory_test_selectItem_2x(
) {
auto c = memory_createContext();
c.playfieldSize = 2;
c = memory_generateConstPlayfield(c);
// Select the first two items.
c.selectedId = 0;
c = memory_selectItem(c);
c.selectedId = 1;
c = memory_selectItem(c);
// See if both items are selected now.
if (
c.recentField == "selectedItems" &&
c.selectedItems.size() == 2 &&
c.selectedItems[0] == 0 &&
c.selectedItems[1] == 1
) {
return "OK: memory_selectItem_2x";
}
return "ERR: memory_selectItem_2x";
}



std::string memory_test_selectItem_3x(
) {
auto c = memory_createContext();
c.playfieldSize = 2;
c = memory_generateConstPlayfield(c);
// Select three items.
c.selectedId = 0;
c = memory_selectItem(c);
c.selectedId = 1;
c = memory_selectItem(c);
c.selectedId = 2;
c = memory_selectItem(c);
// See if only one (last) item is selected now.
if (
c.recentField == "selectedItems" &&
c.selectedItems.size() == 1 &&
c.selectedItems[0] == 2
) {
return "OK: memory_selectItem_3x";
}
return "ERR: memory_selectItem_3x";
}




std::string memory_test_shouldDeselectMismatchedItems(
) {
auto c = memory_createContext();
c.playfieldSize = 2;
c = memory_generateConstPlayfield(c);
// Select two items of different groups.
c.selectedId = 0;
c = memory_selectItem(c);
c.selectedId = 2;
c = memory_selectItem(c);
// Detect mismatching.
c = memory_shouldDeselectMismatchedItems(c);
// See if the two selected items do not match.
if (
c.recentField == "mismatchedItems" &&
c.mismatchedItems.size() == 2 &&
c.mismatchedItems[0] == 0 &&
c.mismatchedItems[1] == 2
) {
return "OK: memory_shouldDeselectMismatchedItems";
}
return "ERR: memory_shouldDeselectMismatchedItems";
}




std::string memory_test_shouldDeselectMismatchedItems_itemTwice(
) {
auto c = memory_createContext();
c.playfieldSize = 2;
c = memory_generateConstPlayfield(c);
// Select the same item twice.
c.selectedId = 0;
c = memory_selectItem(c);
c.selectedId = 0;
c = memory_selectItem(c);
// Detect mismatching.
c = memory_shouldDeselectMismatchedItems(c);
// See if the two selected items do not match.
if (
c.recentField == "mismatchedItems" &&
c.mismatchedItems.size() == 1 &&
c.mismatchedItems[0] == 0
) {
return "OK: memory_shouldDeselectMismatchedItems_itemTwice";
}
return "ERR: memory_shouldDeselectMismatchedItems_itemTwice";
}







std::string memory_test_shouldDetectVictory(
) {
auto c = memory_createContext();
c.playfieldSize = 2;
c = memory_generateConstPlayfield(c);
// Select the first two items of the same group.
c.selectedId = 0;
c = memory_selectItem(c);
c.selectedId = 1;
c = memory_selectItem(c);
// Hide the first pair.
c = memory_shouldHideMatchingItems(c);
// Select the last two items of the same group.
c.selectedId = 2;
c = memory_selectItem(c);
c.selectedId = 3;
c = memory_selectItem(c);
// Hide the second pair.
c = memory_shouldHideMatchingItems(c);
// Detect victory.
c = memory_shouldDetectVictory(c);
// See if victory has been detected.
if (
c.recentField == "victory" &&
c.victory == true
) {
return "OK: memory_shouldDetectVictory";
}
return "ERR: memory_shouldDetectVictory";
}




std::string memory_test_shouldHideMatchingItems(
) {
auto c = memory_createContext();
c.playfieldSize = 2;
c = memory_generateConstPlayfield(c);
// Select two items of the same group.
c.selectedId = 0;
c = memory_selectItem(c);
c.selectedId = 1;
c = memory_selectItem(c);
// Hide matching items.
c = memory_shouldHideMatchingItems(c);
// See if the two selected items match.
if (
c.recentField == "hiddenItems" &&
c.hiddenItems.size() == 2 &&
c.hiddenItems[0] == 0 &&
c.hiddenItems[1] == 1
) {
return "OK: memory_shouldHideMatchingItems";
}
return "ERR: memory_shouldHideMatchingItems";
}


+ 15
- 0
v4/memory_test.h Прегледај датотеку

@@ -0,0 +1,15 @@
#include <string>

#ifndef memory_test_HEADER
#define memory_test_HEADER

std::string memory_test_generateConstPlayfield();
std::string memory_test_selectItem_1x();
std::string memory_test_selectItem_2x();
std::string memory_test_selectItem_3x();
std::string memory_test_shouldDeselectMismatchedItems();
std::string memory_test_shouldDeselectMismatchedItems_itemTwice();
std::string memory_test_shouldDetectVictory();
std::string memory_test_shouldHideMatchingItems();

#endif // memory_test_HEADER

+ 207
- 0
v4/memory_test.py Прегледај датотеку

@@ -0,0 +1,207 @@
from memory import *
from memory_Context import *

def memory_test_generateConstPlayfield(
) -> str:
c = memory_createContext()
c.playfieldSize = 2
c = memory_generateConstPlayfield(c)
if (
c.recentField == "playfieldItems" and
len(c.playfieldItems) == 4 and
c.playfieldItems[0] == 0 and
c.playfieldItems[1] == 0 and
c.playfieldItems[2] == 1 and
c.playfieldItems[3] == 1
):
return "OK: memory_generateConstPlayfield"
#}
return "ERR: memory_generateConstPlayfield"
#}

def memory_test_selectItem_1x(
) -> str:
c = memory_createContext()
c.playfieldSize = 2
c = memory_generateConstPlayfield(c)

# Select the first item.
c.selectedId = 0
c = memory_selectItem(c)

# See if it's in selectedItems now.
if (
c.recentField == "selectedItems" and
len(c.selectedItems) == 1 and
c.selectedItems[0] == 0
):
return "OK: memory_selectItem_1x"
#}
return "ERR: memory_selectItem_1x"
#}

def memory_test_selectItem_2x(
) -> str:
c = memory_createContext()
c.playfieldSize = 2
c = memory_generateConstPlayfield(c)

# Select the first two items.
c.selectedId = 0
c = memory_selectItem(c)
c.selectedId = 1
c = memory_selectItem(c)

# See if both items are selected now.
if (
c.recentField == "selectedItems" and
len(c.selectedItems) == 2 and
c.selectedItems[0] == 0 and
c.selectedItems[1] == 1
):
return "OK: memory_selectItem_2x"
#}
return "ERR: memory_selectItem_2x"
#}

def memory_test_selectItem_3x(
) -> str:
c = memory_createContext()
c.playfieldSize = 2
c = memory_generateConstPlayfield(c)

# Select three items.
c.selectedId = 0
c = memory_selectItem(c)
c.selectedId = 1
c = memory_selectItem(c)
c.selectedId = 2
c = memory_selectItem(c)

# See if only one (last) item is selected now.
if (
c.recentField == "selectedItems" and
len(c.selectedItems) == 1 and
c.selectedItems[0] == 2
):
return "OK: memory_selectItem_3x"
#}
return "ERR: memory_selectItem_3x"
#}

def memory_test_shouldDeselectMismatchedItems(
) -> str:
c = memory_createContext()
c.playfieldSize = 2
c = memory_generateConstPlayfield(c)

# Select two items of different groups.
c.selectedId = 0
c = memory_selectItem(c)
c.selectedId = 2
c = memory_selectItem(c)

# Detect mismatching.
c = memory_shouldDeselectMismatchedItems(c)

# See if the two selected items do not match.
if (
c.recentField == "mismatchedItems" and
len(c.mismatchedItems) == 2 and
c.mismatchedItems[0] == 0 and
c.mismatchedItems[1] == 2
):
return "OK: memory_shouldDeselectMismatchedItems"
#}
return "ERR: memory_shouldDeselectMismatchedItems"
#}

def memory_test_shouldDeselectMismatchedItems_itemTwice(
) -> str:
c = memory_createContext()
c.playfieldSize = 2
c = memory_generateConstPlayfield(c)

# Select the same item twice.
c.selectedId = 0
c = memory_selectItem(c)
c.selectedId = 0
c = memory_selectItem(c)

# Detect mismatching.
c = memory_shouldDeselectMismatchedItems(c)

# See if the two selected items do not match.
if (
c.recentField == "mismatchedItems" and
len(c.mismatchedItems) == 1 and
c.mismatchedItems[0] == 0
):
return "OK: memory_shouldDeselectMismatchedItems_itemTwice"
#}
return "ERR: memory_shouldDeselectMismatchedItems_itemTwice"
#}

def memory_test_shouldDetectVictory(
) -> str:
c = memory_createContext()
c.playfieldSize = 2
c = memory_generateConstPlayfield(c)

# Select the first two items of the same group.
c.selectedId = 0
c = memory_selectItem(c)
c.selectedId = 1
c = memory_selectItem(c)

# Hide the first pair.
c = memory_shouldHideMatchingItems(c)

# Select the last two items of the same group.
c.selectedId = 2
c = memory_selectItem(c)
c.selectedId = 3
c = memory_selectItem(c)

# Hide the second pair.
c = memory_shouldHideMatchingItems(c)

# Detect victory.
c = memory_shouldDetectVictory(c)

# See if victory has been detected.
if (
c.recentField == "victory" and
c.victory == True
):
return "OK: memory_shouldDetectVictory"
#}
return "ERR: memory_shouldDetectVictory"
#}

def memory_test_shouldHideMatchingItems(
) -> str:
c = memory_createContext()
c.playfieldSize = 2
c = memory_generateConstPlayfield(c)

# Select two items of the same group.
c.selectedId = 0
c = memory_selectItem(c)
c.selectedId = 1
c = memory_selectItem(c)

# Hide matching items.
c = memory_shouldHideMatchingItems(c)

# See if the two selected items match.
if (
c.recentField == "hiddenItems" and
len(c.hiddenItems) == 2 and
c.hiddenItems[0] == 0 and
c.hiddenItems[1] == 1
):
return "OK: memory_shouldHideMatchingItems"
#}
return "ERR: memory_shouldHideMatchingItems"
#}

+ 186
- 0
v4/tPythonC++/CPP.py Прегледај датотеку

@@ -0,0 +1,186 @@
from Function import *

def includes():
return """#include <map>
#include <string>
#include <vector>
#include "memory.h"
#include "memory_Context.h"
"""

def replaceAnd(s):
return s.replace("and", "&&")

def replaceAppend(s):
return s.replace(".append(", ".push_back(")

def replaceComment(s):
return s.replace("#", "//")

def replaceLen(s):
posLen = s.find("len(")
posEnd = s.find(")", posLen)
if (
posLen == -1 or
posEnd == -1
):
return s
before = s[:posLen]
name = s[posLen + len("len("):posEnd]
after = s[posEnd + len(")"):]
return f"{before}{name}.size(){after}"

def replaceTrue(s):
return s.replace("True", "true")

def translateParameter(s):
# name: type -> type name
parts = s.split(": ")
indent = len(s) - len(s.lstrip())
name = parts[0].lstrip()
t = translateType(parts[1])
indentation = "".join(" " * indent)
return f"{indentation}{t} {name}"

def translateStatement(s, state):
indent = len(s) - len(s.lstrip())
indentation = "".join(" " * indent)
ss = s.lstrip()
posColon = ss.find(": ")
posComma = ss.find(", ")
posComment = ss.find("# ")
posCtx = ss.find("c.")
posEqual = ss.find(" = ")
posFor = ss.find("for ")
posIn = ss.find(" in ")
posRange = ss.find("range(")
posRangeEnd = ss.find("):")
posClosingScope = ss.find("#}")
posOpenSquareBracket = ss.find("[")

# # -> //
if posComment != -1:
return replaceComment(s)

# #} -> }
if posClosingScope != -1:
return f"{indentation}}}"

# for name in range(x, y): -> for (auto name = x; name < y; ++name) {
if (
posFor >= 0 and
posIn >= 0 and
posRange >= 0
):
name = ss[posFor + len("for "):posIn]
x = ss[posRange + len("range("):posComma]
y = ss[posComma + len(", "):posRangeEnd]
return f"{indentation}for (auto {name} = {x}; {name} < {y}; ++{name}) {{"

# name: type = value -> type name = value
if (
posColon >= 0 and
posEqual >= 0
):
name = ss[:posColon]
type = ss[posColon + len(": "):posEqual]
t = translateType(type)
value = ss[posEqual + len(" = "):]
return f"{indentation}{t} {name} = {value};"

# name = value -> auto name = value
if (
posCtx == -1 and
posColon == -1 and
posOpenSquareBracket == -1 and
posEqual >= 0
):
name = ss[:posEqual]
# Skip prepending 'auto' each time variable is assigned,
# only do it the first time
if name not in state.varNames:
state.varNames[name] = True
value = ss[posEqual + len(" = "):]
return f"{indentation}auto {name} = {value};"

# Keep "if ("
if ss == "if (":
state.isIf = True
return s

# Keep "if not ("
if ss == "if not (":
state.isIfNot = True
return f"{indentation}if (!("

# ): -> }
if ss == "):":
# if
if state.isIf:
state.isIf = False
return f"{indentation}) {{"
# if not
state.isIfNot = False
return f"{indentation})) {{"

ending = ";"
if state.isIf or state.isIfNot:
ending = ""

# Unknown.
return f"{s}{ending}"

def translateType(s):
# dict[X, Y] -> std::map<X, Y>
if s.startswith("dict["):
kv = s[len("dict["):-len("]")]
parts = kv.split(", ")
return f"std::map<{parts[0]}, {parts[1]}>"
# str -> std::string
if s == "str":
return "std::string"

# Unknown. Return as is.
return s

class CPP:
def __init__(self, fn):
self.fn = fn
self.isIf = False
self.isIfNot = False
self.varNames = {}

def translate(self):
returnType = translateType(self.fn.returnType)

# Parameters.
params = []
for i in range(0, len(self.fn.parameters)):
p = translateParameter(self.fn.parameters[i])
# Make Context passed by reference.
#if "Context" in p:
# p = p.replace("Context", "Context&")
params.append(p)
strparams = "\n".join(params)
if (len(strparams) > 0):
strparams += "\n"

# Statements.
sts = []
for i in range(0, len(self.fn.statements)):
s = translateStatement(self.fn.statements[i], self)
s = replaceAnd(s)
s = replaceAppend(s)
# Replace len twice to account for double invocation.
s = replaceLen(s)
s = replaceLen(s)
s = replaceTrue(s)
sts.append(s)
strstatements = "\n".join(sts)

return f"""{returnType} {self.fn.name}(
{strparams}) {{
{strstatements}
}}
"""


+ 76
- 0
v4/tPythonC++/Function.py Прегледај датотеку

@@ -0,0 +1,76 @@
class Function:
def __init__(self):
self.isBody = False
self.isComplete = False
self.isSignature = False
self.name = None
self.parameters = []
self.returnType = None
self.statements = []

def parseLine(self, ln):
parts = ln.split(" ")
count = len(parts)
lastPart = parts[count - 1]

# Complete.
if (
self.isBody and
ln.startswith("#}")
):
self.isComplete = True

# Statements.
if (
self.isBody and
not ln.startswith("#}")
):
self.statements.append(ln)

# Parameters.
if (
self.isSignature and
not ln.endswith(":")
):
p = ln
# Remove comma if present.
if p.endswith(","):
p = p[:-1]
self.parameters.append(p)

# Beginning of signature.
if (
self.returnType is None and
self.name is None
and lastPart.endswith("(")
):
self.isSignature = True

# Return type.
if (
self.isSignature and
ln.startswith(") -> ") and
ln.endswith(":")
):
self.returnType = ln[len(") -> "):-len(":")]

# End of parameters/signature.
if (
self.isSignature and
ln.startswith(") -> ") and
ln.endswith(":")
):
self.isSignature = False
self.isBody = True

# Name.
if (
self.isSignature and
lastPart.endswith("(")
):
self.name = lastPart[:-1]

def __repr__(self):
return self.__str__()
def __str__(self):
return f"Function(name/returnT/parameters/statements: '{self.name}'/'{self.returnType}'/'{self.parameters}'/'{self.statements}')"

+ 37
- 0
v4/tPythonC++/process.py Прегледај датотеку

@@ -0,0 +1,37 @@
from CPP import *
from Function import *

def process(FILE_IN):
# Read file.
lines_in = []
with open(FILE_IN) as file:
for line in file:
lines_in.append(line.rstrip())

f = Function()
out = includes()

# Parse.
for ln in lines_in:
ln = ln.rstrip()

# Empty line.
if ln == "":
out += "\n"
# Comment.
elif (
ln.startswith("#") and
not f.isBody
):
out += replaceComment(ln) + "\n"
# Function.
else:
f.parseLine(ln)

if f.isComplete:
cpp = CPP(f)
out += cpp.translate()
# Create new function instance.
f = Function()

return out

+ 25
- 0
v4/tPythonC++/translate Прегледај датотеку

@@ -0,0 +1,25 @@
#!/usr/bin/env python3
import os
import sys
from process import *

DIR = os.path.dirname(os.path.realpath(sys.argv[0]))

if len(sys.argv) < 2:
print("Usage: /path/to/translate [OPTIONS] PYTHON_FILE")
sys.exit(1)

FILE_IN = sys.argv[-1]

# Parse options
# TODO Use options
OPT_HEADER = "--header" in sys.argv
OPT_INCLUDES = None
OPT_PREFIX_INCLUDES = "--includes="
for arg in sys.argv:
if arg.startswith(OPT_PREFIX_INCLUDES):
OPT_INCLUDES = arg[len(OPT_PREFIX_INCLUDES):]

# Translate file.
out = process(FILE_IN, OPT_HEADER, OPT_INCLUDES)
print(out)

+ 7
- 0
v4/translate-py-cxx Прегледај датотеку

@@ -0,0 +1,7 @@
#!/bin/bash

DIR=$(cd "$(dirname "$0")" ; pwd -P)
TR=$DIR/tPythonC++/translate

$TR $DIR/memory.py > $DIR/memory.cpp
$TR $DIR/memory_test.py > $DIR/memory_test.cpp

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