github.com/captn3m0/codechef.git

---
{"category_name":"easy","problem_code":"RGBCONST","problem_name":"RGB Construction","problemComponents":{"constraints":"- $1 \\leq T \\leq 100$\n- $3 \\leq R + G + B \\leq 1000$\n- $R, G, B \\geq 1$\n","constraintsState":true,"subtasks":"- 30 points : $1 \\leq R \\leq 10000$\n- 70 points : $1 \\leq R \\leq 10^9$\n","subtasksState":false,"inputFormat":"- The first line contains $T$ - the number of test cases. Then the test cases follow.\n- The first line of each test case contains $R$, $G$, and $B$ - the number of red, green and blue nodes respectively in the tree.","inputFormatState":true,"outputFormat":"- If a tree can be constructed that fulfils all the requirements then\n    - In the first line, output a string of length $R + G + B$ in which the $i^{th}$ character (1-based indexing) is either `R`, `G` or `B` denoting the colour of the $i^{th}$ node as red, green or blue respectively.\n    - In the following $R + G + B - 1$ lines, output two integers $U$ and $V$ denoting there is an edge between $U^{th}$ and $V^{th}$ node.\n- If no tree fulfils the requirements print `-1` in a single line. ","outputFormatState":true,"sampleTestCases":{"0":{"id":1,"input":"3\n1 1 1\n1 1 2\n1 2 5\n","output":"RBG\n1 2\n1 3\nBRGB\n1 2\n2 3\n3 4\n-1\n","explanation":"- **Test case $1$:** There is only one blue node. Hence, any valid tree with $1$ red, $1$ green and $1$ blue node will pass the conditions.\n- **Test case $2$:** There are two blue nodes numbered $1$ and $4$ and the simple path between them passes through one red node numbered $2$ and one green node numbered $3$. Hence, this tree is valid. \n- **Test case $3$:** No valid tree can be constructed under the given constraints.","isDeleted":false}}},"video_editorial_url":"https://youtu.be/KFgzuRoeusw","languages_supported":{"0":"CPP14","1":"C","2":"JAVA","3":"PYTH 3.6","4":"CPP17","5":"PYTH","6":"PYP3","7":"CS2","8":"ADA","9":"PYPY","10":"TEXT","11":"PAS fpc","12":"NODEJS","13":"RUBY","14":"PHP","15":"GO","16":"HASK","17":"TCL","18":"PERL","19":"SCALA","20":"LUA","21":"kotlin","22":"BASH","23":"JS","24":"LISP sbcl","25":"rust","26":"PAS gpc","27":"BF","28":"CLOJ","29":"R","30":"D","31":"CAML","32":"FORT","33":"ASM","34":"swift","35":"FS","36":"WSPC","37":"LISP clisp","38":"SQL","39":"SCM guile","40":"PERL6","41":"ERL","42":"CLPS","43":"ICK","44":"NICE","45":"PRLG","46":"ICON","47":"COB","48":"SCM chicken","49":"PIKE","50":"SCM qobi","51":"ST","52":"SQLQ","53":"NEM"},"max_timelimit":1,"source_sizelimit":50000,"problem_author":"jeevanjyot","problem_tester":"aryanc403","date_added":"17-12-2021","tags":{"0":"cook136","1":"easy","2":"jeevanjyot"},"problem_difficulty_level":"Unavailable","best_tag":"","editorial_url":"https://discuss.codechef.com/problems/RGBCONST","time":{"view_start_date":1639933200,"submit_start_date":1639933200,"visible_start_date":1639933200,"end_date":1735669800},"is_direct_submittable":false,"problemDiscussURL":"https://discuss.codechef.com/search?q=RGBCONST","is_proctored":false,"visitedContests":{},"layout":"problem"}
---
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Tracy is teaching Charlie maths via a game called $N$-Cube, which involves three sections involving $N$.

Tracy gives Charlie a number $N$, and Charlie makes a list of $N$-th powers of integers in increasing order $1^N, 2^N, 3^N, \dot, \text{so on}$. This teaches him exponentiation.

Then Charlie performs the following subtraction game $N$ times: Take all pairs of consecutive numbers in the list and take their difference. These differences then form the new list for the next iteration of the game. Eg, if $N$ was 6, the list proceeds as $[1, 64, 729, 4096 ... ]$ to $[63, 685, 3367 ...]$, and so on $5$ more times.

After the subtraction game, Charlie has to correctly tell Tracy the $N$-th element of the list. This number is the *value of the game*.

After practice Charlie became an expert in the game. To challenge him more, Tracy will give two numbers $M$ (where $M$ is a prime) and $R$ instead of just a single number $N$, and the game must start from $M_R - 1$ instead of $N$. Since the *value of the game* can now become large, Charlie just have to tell the largest integer $K$ such that $M_K$ divides this number. Since even $K$ can be large, output $K$ modulo 1000000007 ($10^9 + 7$).

<aside style='background: #f8f8f8;padding: 10px 15px;'><div>All submissions for this problem are available.</div></aside>